scholarly article | Q13442814 |
P50 | author | Kim Nasmyth | Q1741557 |
Rafal Ciosk | Q57056664 | ||
P2093 | author name string | C Michaelis | |
P2860 | cites work | Sequence conservation of the rad21 Schizosaccharomyces pombe DNA double-strand break repair gene in human and mouse | Q24336017 |
Destruction of the CDC28/CLB mitotic kinase is not required for the metaphase to anaphase transition in budding yeast | Q24564643 | ||
Tight control of gene expression in mammalian cells by tetracycline-responsive promoters | Q24564850 | ||
The cyclosome, a large complex containing cyclin-selective ubiquitin ligase activity, targets cyclins for destruction at the end of mitosis | Q24656114 | ||
A direct link between sister chromatid cohesion and chromosome condensation revealed through the analysis of MCD1 in S. cerevisiae | Q24657816 | ||
Loading of an Mcm protein onto DNA replication origins is regulated by Cdc6p and CDKs | Q27931263 | ||
Localization of RAP1 and topoisomerase II in nuclei and meiotic chromosomes of yeast | Q27932347 | ||
Identification of subunits of the anaphase-promoting complex of Saccharomyces cerevisiae | Q27932699 | ||
SMC1: an essential yeast gene encoding a putative head-rod-tail protein is required for nuclear division and defines a new ubiquitous protein family | Q27932753 | ||
CLB5 and CLB6, a new pair of B cyclins involved in DNA replication in Saccharomyces cerevisiae | Q27939590 | ||
Condensins, chromosome condensation protein complexes containing XCAP-C, XCAP-E and a Xenopus homolog of the Drosophila Barren protein | Q28238784 | ||
Genes involved in sister chromatid separation are needed for B-type cyclin proteolysis in budding yeast | Q28300714 | ||
Anaphase initiation in Saccharomyces cerevisiae is controlled by the APC-dependent degradation of the anaphase inhibitor Pds1p | Q29615276 | ||
Genetic instability in colorectal cancers | Q29618711 | ||
A 20S complex containing CDC27 and CDC16 catalyzes the mitosis-specific conjugation of ubiquitin to cyclin B | Q29620071 | ||
Closing the cell cycle circle in yeast: G2 cyclin proteolysis initiated at mitosis persists until the activation of G1 cyclins in the next cycle. | Q34329439 | ||
Pds1p, an inhibitor of anaphase in budding yeast, plays a critical role in the APC and checkpoint pathway(s). | Q34375310 | ||
A heterodimeric coiled-coil protein required for mitotic chromosome condensation in vitro | Q34725116 | ||
Anaphase is initiated by proteolysis rather than by the inactivation of maturation-promoting factor. | Q34729839 | ||
Cut2 proteolysis required for sister-chromatid seperation in fission yeast | Q34733084 | ||
Mitotic chromosome condensation. | Q34737023 | ||
Chromosome condensation and sister chromatid pairing in budding yeast | Q36234068 | ||
DNA topoisomerase II mutant of Saccharomyces cerevisiae: topoisomerase II is required for segregation of daughter molecules at the termination of DNA replication | Q36258619 | ||
The forces that move chromosomes in mitosis | Q39653525 | ||
The SMC family: from chromosome condensation to dosage compensation. | Q40475452 | ||
Cloning and characterization of rad21 an essential gene of Schizosaccharomyces pombe involved in DNA double-strand-break repair | Q40536186 | ||
Activation of S-phase-promoting CDKs in late G1 defines a "point of no return" after which Cdc6 synthesis cannot promote DNA replication in yeast | Q40936308 | ||
A fission yeast gene encoding a protein that preferentially associates with curved DNA. | Q42595549 | ||
GFP tagging of budding yeast chromosomes reveals that protein-protein interactions can mediate sister chromatid cohesion | Q46864873 | ||
Mei-S332, a drosophila protein required for sister-chromatid cohesion, can localize to meiotic centromere regions | Q47070944 | ||
The structure of sister minichromosome DNA before anaphase in Saccharomyces cerevisiae | Q68208124 | ||
11 Expression of genes in yeast using the ADCI promoter | Q70160209 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Cohesin subunit SMC3 YJL074C | Q27549977 |
Cohesin subunit SMC1 YFL008W | Q27551740 | ||
P304 | page(s) | 35-45 | |
P577 | publication date | 1997-10-03 | |
P1433 | published in | Cell | Q655814 |
P1476 | title | Cohesins: chromosomal proteins that prevent premature separation of sister chromatids | |
P478 | volume | 91 |
Q47694477 | A Bacillus subtilis gene-encoding protein homologous to eukaryotic SMC motor protein is necessary for chromosome partition |
Q33812535 | A CTCF-independent role for cohesin in tissue-specific transcription |
Q40424054 | A Caenorhabditis elegans cohesion protein with functions in meiotic chromosome pairing and disjunction |
Q28075699 | A Cell Biological Perspective on Past, Present and Future Investigations of the Spindle Assembly Checkpoint |
Q36648733 | A Computational Approach to Estimating Nondisjunction Frequency in Saccharomyces cerevisiae. |
Q36574588 | A Genome-Wide Screen with Nicotinamide to Identify Sirtuin-Dependent Pathways in Saccharomyces cerevisiae |
Q55112481 | A Loss of Function Screen of Epigenetic Modifiers and Splicing Factors during Early Stage of Cardiac Reprogramming. |
Q56951129 | A Mechanism for Coupling Exit from Mitosis to Partitioning of the Nucleus |
Q92177466 | A SIR-independent role for cohesin in subtelomeric silencing and organization |
Q52839733 | A Sister Chromatid Cohesion Assay Using Xenopus Egg Extracts. |
Q40419083 | A Tel1/MRX-dependent checkpoint inhibits the metaphase-to-anaphase transition after UV irradiation in the absence of Mec1. |
Q58792957 | A ZIP1 separation-of-function allele reveals that centromere pairing drives meiotic segregation of achiasmate chromosomes in budding yeast |
Q27931673 | A central role for cohesins in sister chromatid cohesion, formation of axial elements, and recombination during yeast meiosis. |
Q28219221 | A chromatin remodelling complex that loads cohesin onto human chromosomes |
Q36855871 | A closed conformation of the Caenorhabditis elegans separase-securin complex |
Q64945753 | A combination of transcription factors mediates inducible interchromosomal contacts. |
Q91743008 | A conserved ATP- and Scc2/4-dependent activity for cohesin in tethering DNA molecules |
Q35573241 | A conserved domain in the scc3 subunit of cohesin mediates the interaction with both mcd1 and the cohesin loader complex |
Q24657816 | A direct link between sister chromatid cohesion and chromosome condensation revealed through the analysis of MCD1 in S. cerevisiae |
Q92129377 | A folded conformation of MukBEF and cohesin |
Q24646543 | A handcuff model for the cohesin complex |
Q34819227 | A methyltransferase targeting assay reveals silencer-telomere interactions in budding yeast |
Q35625730 | A molecular portrait of Arabidopsis meiosis |
Q33269799 | A multi-step pathway for the establishment of sister chromatid cohesion |
Q64934932 | A natural histone H2A variant lacking the Bub1 phosphorylation site and regulated depletion of centromeric histone CENP-A foster evolvability in Candida albicans. |
Q47752870 | A new protein complex (meicohesin) regulating cohesion of sister chromatids in meiosis in Saccharomyces cerevisiae |
Q28140483 | A novel SMC protein complex in Schizosaccharomyces pombe contains the Rad18 DNA repair protein |
Q34786015 | A novel mechanism for the establishment of sister chromatid cohesion by the ECO1 acetyltransferase |
Q24674698 | A novel role of the budding yeast separin Esp1 in anaphase spindle elongation: evidence that proper spindle association of Esp1 is regulated by Pds1 |
Q43131599 | A pathway containing the Ipl1/aurora protein kinase and the spindle midzone protein Ase1 regulates yeast spindle assembly |
Q27666223 | A positively charged channel within the Smc1/Smc3 hinge required for sister chromatid cohesion |
Q24291762 | A potential role for human cohesin in mitotic spindle aster assembly |
Q58793022 | A quantitative analysis of cohesin decay in mitotic fidelity |
Q37322173 | A regulatory role for the cohesin loader NIPBL in nonhomologous end joining during immunoglobulin class switch recombination |
Q47071869 | A role for Drosophila SMC4 in the resolution of sister chromatids in mitosis. |
Q37480413 | A role for centromere pairing in meiotic chromosome segregation |
Q46105823 | A role for the Smc3 hinge domain in the maintenance of sister chromatid cohesion |
Q35590047 | A role for the budding yeast separase, Esp1, in Ty1 element retrotransposition |
Q39381847 | A telomere-dependent DNA damage checkpoint induced by prolonged mitotic arrest |
Q40392447 | APC(ste9/srw1) promotes degradation of mitotic cyclins in G(1) and is inhibited by cdc2 phosphorylation. |
Q41762977 | APC/C-Cdh1-dependent anaphase and telophase progression during mitotic slippage |
Q27934216 | ASH1 mRNA localization in three acts |
Q39003064 | ASXL1 interacts with the cohesin complex to maintain chromatid separation and gene expression for normal hematopoiesis |
Q42267470 | ATP-dependent aggregation of single-stranded DNA by a bacterial SMC homodimer |
Q24548843 | AZU-1: a candidate breast tumor suppressor and biomarker for tumor progression |
Q58752763 | Absence of the Spindle Assembly Checkpoint Restores Mitotic Fidelity upon Loss of Sister Chromatid Cohesion |
Q39736929 | Accumulation of Mad2-Cdc20 complex during spindle checkpoint activation requires binding of open and closed conformers of Mad2 in Saccharomyces cerevisiae |
Q38767506 | Achilles' heel of pluripotent stem cells: genetic, genomic and epigenetic variations during prolonged culture |
Q40340573 | Adenovirus protein E4orf4 induces premature APCCdc20 activation in Saccharomyces cerevisiae by a protein phosphatase 2A-dependent mechanism |
Q27930319 | Ama1p is a meiosis-specific regulator of the anaphase promoting complex/cyclosome in yeast |
Q27938525 | An ESP1/PDS1 complex regulates loss of sister chromatid cohesion at the metaphase to anaphase transition in yeast |
Q27938575 | An Eco1-independent sister chromatid cohesion establishment pathway in S. cerevisiae |
Q38625008 | An Smc3 acetylation cycle is essential for establishment of sister chromatid cohesion |
Q52719913 | An interplay between Shugoshin and Spo13 for centromeric cohesin protection and sister kinetochore mono-orientation during meiosis I in Saccharomyces cerevisiae. |
Q37540493 | Analysis of Meiotic Sister Chromatid Cohesion in Caenorhabditis elegans |
Q34165824 | Analysis of Scc1-deficient cells defines a key metaphase role of vertebrate cohesin in linking sister kinetochores |
Q61783573 | Analysis of nuclear organization in Saccharomyces cerevisiae |
Q40701671 | Anaphase specific auto-cleavage of separase |
Q38992165 | Approaches to studying subnuclear organization and gene-nuclear pore interactions |
Q53629417 | Arabidopsis separase AESP is essential for embryo development and the release of cohesin during meiosis. |
Q37421547 | Assays for mitotic chromosome condensation in live yeast and mammalian cells |
Q64065354 | Aurora B-INCENP Localization at Centromeres/Inner Kinetochores Is Required for Chromosome Bi-orientation in Budding Yeast |
Q36129382 | Basic mechanism of eukaryotic chromosome segregation |
Q73969583 | Bends in human mitotic metaphase chromosomes revisited: 15q11-13 is the most frequent non-random autosomal bend in blood cultures |
Q34621622 | Beyond the ABCs of CKC and SCC. Do centromeres orchestrate sister chromatid cohesion or vice versa? |
Q34688467 | Bi-orienting chromosomes on the mitotic spindle. |
Q42198675 | BiFCROS: A Low-Background Fluorescence Repressor Operator System for Labeling of Genomic Loci. |
Q28366817 | Bimodal activation of SMC ATPase by intra- and inter-molecular interactions |
Q37155433 | Binding of the essential Saccharomyces cerevisiae kinetochore protein Ndc10p to CDEII. |
Q41860062 | Binding, sliding, and function of cohesin during transcriptional activation |
Q37535351 | Biochemical reconstitution of topological DNA binding by the cohesin ring |
Q27343104 | Bub1-mediated adaptation of the spindle checkpoint |
Q27933303 | Budding yeast Bub2 is localized at spindle pole bodies and activates the mitotic checkpoint via a different pathway from Mad2 |
Q27934001 | Budding yeast PDS5 plays an important role in meiosis and is required for sister chromatid cohesion |
Q43087827 | Budding yeast Swe1 is involved in the control of mitotic spindle elongation and is regulated by Cdc14 phosphatase during mitosis. |
Q36139047 | Caenorhabditis elegans EVL-14/PDS-5 and SCC-3 Are Essential for Sister Chromatid Cohesion in Meiosis and Mitosis |
Q35531387 | Calpain-1 cleaves Rad21 to promote sister chromatid separation |
Q83423039 | Can corruption of chromosome cohesion create a conduit to cancer? |
Q44892183 | Cdc14 phosphatase induces rDNA condensation and resolves cohesin-independent cohesion during budding yeast anaphase |
Q41084291 | Cdc20 directs proteasome-mediated degradation of the tumor suppressor SMAR1 in higher grades of cancer through the anaphase promoting complex |
Q59828245 | Cdc20 protein contains a destruction-box but, unlike Clb2, its proteolysisis not acutely dependent on the activity of anaphase-promoting complex |
Q24554462 | Cdc4, a protein required for the onset of S phase, serves an essential function during G(2)/M transition in Saccharomyces cerevisiae |
Q36954180 | Cdc7-Dbf4 regulates NDT80 transcription as well as reductional segregation during budding yeast meiosis |
Q52347879 | Cdk1 phosphorylation of Esp1/Separase functions with PP2A and Slk19 to regulate pericentric Cohesin and anaphase onset. |
Q40243297 | Cdk1 phosphorylation sites on Cdc27 are required for correct chromosomal localisation and APC/C function in syncytial Drosophila embryos |
Q27933316 | Cdk1 promotes kinetochore bi-orientation and regulates Cdc20 expression during recovery from spindle checkpoint arrest |
Q38546465 | Cell biology of homologous recombination in yeast |
Q35164329 | Cell biology of mitotic recombination |
Q95441900 | Cell cycle -dependent proteolysis in plants. Identification Of the destruction box pathway and metaphase arrest produced by the proteasome inhibitor mg132 |
Q24291865 | Cell cycle-dependent expression and nucleolar localization of hCAP-H |
Q28489069 | Cell cycle-dependent localization of two novel prokaryotic chromosome segregation and condensation proteins in Bacillus subtilis that interact with SMC protein |
Q27932898 | Cell cycle-dependent nuclear localization of yeast RNase III is required for efficient cell division |
Q30454298 | Cell cycle-regulated proteolysis of mitotic target proteins |
Q34977361 | Cell-Cycle-Regulated Expression and Subcellular Localization of the Caulobacter crescentus SMC Chromosome Structural Protein |
Q39864429 | Cell-cycle control of the establishment of mating-type silencing in S. cerevisiae |
Q43063587 | Cell-type-specific TEV protease cleavage reveals cohesin functions in Drosophila neurons |
Q27313956 | Centromere-independent accumulation of cohesin at ectopic heterochromatin sites induces chromosome stretching during anaphase |
Q74763464 | Centromeres become unstuck without heterochromatin |
Q52757935 | Centromeric Cohesin: Molecular Glue and Much More. |
Q29615267 | Cfi1 prevents premature exit from mitosis by anchoring Cdc14 phosphatase in the nucleolus |
Q24291332 | Characterization of a novel human SMC heterodimer homologous to the Schizosaccharomyces pombe Rad18/Spr18 complex |
Q28269862 | Characterization of a prokaryotic SMC protein involved in chromosome partitioning |
Q34941063 | Characterization of constitutive CTCF/cohesin loci: a possible role in establishing topological domains in mammalian genomes |
Q40445249 | Characterization of fission yeast cohesin: essential anaphase proteolysis of Rad21 phosphorylated in the S phase |
Q28910219 | Characterization of the components of the putative mammalian sister chromatid cohesion complex |
Q24290512 | Characterization of vertebrate cohesin complexes and their regulation in prophase |
Q64062627 | Checkpoint Proteins Bub1 and Bub3 Delay Anaphase Onset in Response to Low Tension Independent of Microtubule-Kinetochore Detachment |
Q33851572 | Chiasmata promote monopolar attachment of sister chromatids and their co-segregation toward the proper pole during meiosis I. |
Q27938640 | Chl1 DNA helicase regulates Scc2 deposition specifically during DNA-replication in Saccharomyces cerevisiae |
Q34131328 | Chromatin proteins are determinants of centromere function |
Q36412957 | ChromoShake: a chromosome dynamics simulator reveals that chromatin loops stiffen centromeric chromatin. |
Q36326411 | Chromosomal addresses of the cohesin component Mcd1p |
Q28185991 | Chromosomal cohesin forms a ring |
Q35897711 | Chromosome Bridges Maintain Kinetochore-Microtubule Attachment throughout Mitosis and Rarely Break during Anaphase |
Q38365781 | Chromosome Dynamics during Mitosis |
Q33719988 | Chromosome arm length and nuclear constraints determine the dynamic relationship of yeast subtelomeres |
Q36129371 | Chromosome bi-orientation on the mitotic spindle |
Q34430835 | Chromosome cohesion and segregation in mitosis and meiosis |
Q35062356 | Chromosome cohesion and separation: from men and molecules |
Q27931108 | Chromosome condensation factor Brn1p is required for chromatid separation in mitosis |
Q41669863 | Chromosome condensation in the absence of the non-SMC subunits of MukBEF. |
Q90271752 | Chromosome detachment from the nuclear envelope is required for genomic stability in closed mitosis |
Q48018554 | Chromosome dynamics: the SMC protein family |
Q41690547 | Chromosome dynamics: yeast pulls it apart |
Q34119639 | Chromosome segregation and cancer: cutting through the mystery |
Q38176326 | Chromosome segregation in budding yeast: sister chromatid cohesion and related mechanisms. |
Q35035045 | Chromosomes of the budding yeast Saccharomyces cerevisiae |
Q35572534 | Chronic maternal protein deprivation in mice is associated with overexpression of the cohesin-mediator complex in liver of their offspring |
Q37506101 | Clearing the way for mitosis: is cohesin a target? |
Q27939230 | Cleavage of Mcd1 by caspase-like protease Esp1 promotes apoptosis in budding yeast |
Q27934390 | Cleavage of cohesin by the CD clan protease separin triggers anaphase in yeast |
Q38905610 | Clinical Implications of Genetic Mutations in Myelodysplastic Syndrome |
Q47981697 | Cloning and characterization of mammalian SMC1 and SMC3 genes and proteins, components of the DNA recombination complexes RC-1. |
Q48359535 | Cloning and characterization of two Arabidopsis genes that belong to the RAD21/REC8 family of chromosome cohesin proteins |
Q92851887 | Cohesin Disrupts Polycomb-Dependent Chromosome Interactions in Embryonic Stem Cells |
Q45994990 | Cohesin Function in Cohesion, Condensation and DNA Repair Is Regulated by Wpl1p via a Common Mechanism in Saccharomyces cerevisiae. |
Q51392582 | Cohesin Mutations in Cancer. |
Q39381849 | Cohesin Mutations in Myeloid Malignancies |
Q34504505 | Cohesin Rec8 is required for reductional chromosome segregation at meiosis |
Q38655700 | Cohesin Releases DNA through Asymmetric ATPase-Driven Ring Opening |
Q44877350 | Cohesin SA2 is a sequence independent DNA binding protein that recognizes DNA replication and repair intermediates. |
Q48208726 | Cohesin acetylation and Wapl-Pds5 oppositely regulate translocation of cohesin along DNA. |
Q55434437 | Cohesin and chromosome segregation. |
Q36973570 | Cohesin and human disease |
Q37524723 | Cohesin association to replication sites depends on rad50 and promotes fork restart |
Q39140247 | Cohesin biology meets the loop extrusion model |
Q34503710 | Cohesin complexes with a potential to link mammalian meiosis to cancer |
Q28219330 | Cohesin defects lead to premature sister chromatid separation, kinetochore dysfunction, and spindle-assembly checkpoint activation |
Q52352074 | Cohesin dynamic association to chromatin and interfacing with replication forks in genome integrity maintenance. |
Q54041268 | Cohesin ensures bipolar attachment of microtubules to sister centromeres and resists their precocious separation. |
Q37999573 | Cohesin in determining chromosome architecture |
Q30844363 | Cohesin interaction with centromeric minichromosomes shows a multi-complex rod-shaped structure |
Q47585742 | Cohesin mediates Esco2-dependent transcriptional regulation in a zebrafish regenerating fin model of Roberts Syndrome. |
Q29618130 | Cohesin mediates transcriptional insulation by CCCTC-binding factor |
Q38840393 | Cohesin mutations in human cancer |
Q30431896 | Cohesin organizes chromatin loops at DNA replication factories. |
Q42726606 | Cohesin phosphorylation and mobility of SMC1 at ionizing radiation-induced DNA double-strand breaks in human cells |
Q34760445 | Cohesin plays a dual role in gene regulation and sister-chromatid cohesion during meiosis in Saccharomyces cerevisiae |
Q30882231 | Cohesin promotes the repair of ionizing radiation-induced DNA double-strand breaks in replicated chromatin |
Q41809530 | Cohesin relocation from sites of chromosomal loading to places of convergent transcription |
Q27931856 | Cohesin rings devoid of Scc3 and Pds5 maintain their stable association with the DNA |
Q27940143 | Cohesin's DNA exit gate is distinct from its entrance gate and is regulated by acetylation |
Q27939252 | Cohesin's binding to chromosomes depends on a separate complex consisting of Scc2 and Scc4 proteins |
Q39865783 | Cohesin's concatenation of sister DNAs maintains their intertwining |
Q35550779 | Cohesin, condensin, and the intramolecular centromere loop together generate the mitotic chromatin spring. |
Q28751709 | Cohesin, gene expression and development: lessons from Drosophila |
Q35932248 | Cohesin-SA1 deficiency drives aneuploidy and tumourigenesis in mice due to impaired replication of telomeres |
Q38317050 | Cohesin-dependent association of scc2/4 with the centromere initiates pericentromeric cohesion establishment |
Q90083145 | Cohesin-dependent regulation of gene expression during differentiation is lost in cohesin-mutated myeloid malignancies |
Q35756719 | Cohesin-independent segregation of sister chromatids in budding yeast |
Q36594214 | Cohesin-interacting protein WAPL-1 regulates meiotic chromosome structure and cohesion by antagonizing specific cohesin complexes |
Q29036115 | Cohesin: a catenase with separate entry and exit gates? |
Q37749881 | Cohesin: a regulator of genome integrity and gene expression |
Q37733997 | Cohesinopathies, gene expression, and chromatin organization |
Q24654710 | Cohesinopathy mutations disrupt the subnuclear organization of chromatin |
Q39753378 | Cohesins Determine the Attachment Manner of Kinetochores to Spindle Microtubules at Meiosis I in Fission Yeast |
Q78066772 | Cohesins bind to preferential sites along yeast chromosome III, with differential regulation along arms versus the centric region |
Q41761549 | Cohesins coordinate gene transcriptions of related function within Saccharomyces cerevisiae |
Q37416042 | Cohesins: chromatin architects in chromosome segregation, control of gene expression and much more |
Q57270146 | Cohesion between sister chromatids must be established during DNA replication |
Q42563111 | Cohesion by topology: sister chromatids interlocked by DNA. |
Q96222264 | Cohesion is established during DNA replication utilising chromosome associated cohesin rings as well as those loaded de novo onto nascent DNAs |
Q27940019 | Colocalization of multiple DNA double-strand breaks at a single Rad52 repair centre |
Q91964218 | Common Features of the Pericentromere and Nucleolus |
Q64895101 | Communication between distinct subunit interfaces of the cohesin complex promotes its topological entrapment of DNA. |
Q42165706 | Comparative Hi-C reveals that CTCF underlies evolution of chromosomal domain architecture |
Q38406718 | Comparative analysis of chromosome segregation in human, yeasts and trypanosome |
Q35812288 | Complex elaboration: making sense of meiotic cohesin dynamics |
Q24657378 | Comprehensive identification of cell cycle-regulated genes of the yeast Saccharomyces cerevisiae by microarray hybridization |
Q24617076 | Condensin and cohesin complexity: the expanding repertoire of functions |
Q48318431 | Condensin and cohesin knockouts in Arabidopsis exhibit a titan seed phenotype |
Q35167975 | Condensin and cohesin: more than chromosome compactor and glue |
Q38803323 | Condensin is required for chromosome arm cohesion during mitosis |
Q34498364 | Condensin loaded onto the replication fork barrier site in the rRNA gene repeats during S phase in a FOB1-dependent fashion to prevent contraction of a long repetitive array in Saccharomyces cerevisiae |
Q59344613 | Condensin structures chromosomal DNA through topological links |
Q33853231 | Condensins promote coorientation of sister chromatids during meiosis I in budding yeast |
Q41614617 | Condensins, cohesins, and chromosome architecture: how to make and break a mitotic chromosome |
Q48172698 | Connected Gene Communities Underlie Transcriptional Changes in Cornelia de Lange Syndrome. |
Q52716163 | Conservation of the separase regulatory domain. |
Q39860948 | Conserved disruptions in the predicted coiled-coil domains of eukaryotic SMC complexes: implications for structure and function. |
Q27329652 | Constructing 3D interaction maps from 1D epigenomes. |
Q36388826 | Controlled exchange of chromosomal arms reveals principles driving telomere interactions in yeast |
Q30477159 | Coordinated requirements of human topo II and cohesin for metaphase centromere alignment under Mad2-dependent spindle checkpoint surveillance |
Q27932759 | Coordination of chromatid separation and spindle elongation by antagonistic activities of mitotic and S-phase CDKs |
Q37011319 | Coprinus cinereus rad50 mutants reveal an essential structural role for Rad50 in axial element and synaptonemal complex formation, homolog pairing and meiotic recombination |
Q24303629 | Cornelia de Lange Syndrome and the link between chromosomal function, DNA repair and developmental gene regulation |
Q24596109 | Cornelia de Lange syndrome, cohesin, and beyond |
Q41868725 | Correct spindle elongation at the metaphase/anaphase transition is an APC-dependent event in budding yeast |
Q33231754 | Correlation of invasion and metastasis of cancer cells, and expression of the RAD21 gene in oral squamous cell carcinoma |
Q30543680 | Critical differences between isoforms of securin reveal mechanisms of separase regulation |
Q38601706 | Crossed wires: 3D genome misfolding in human disease. |
Q92086343 | Crosstalk between chromatin structure, cohesin activity and transcription |
Q27931105 | Ctf18 is required for homologous recombination-mediated double-strand break repair |
Q27939220 | Ctf7p is essential for sister chromatid cohesion and links mitotic chromosome structure to the DNA replication machinery |
Q38336330 | Cut1 is loaded onto the spindle by binding to Cut2 and promotes anaphase spindle movement upon Cut2 proteolysis. |
Q34645625 | Cyclin B-cdk activity stimulates meiotic rereplication in budding yeast |
Q34455851 | Cyclin/Cdk complexes: their involvement in cell cycle progression and mitotic division |
Q37778009 | DNA Damage and Polyploidization |
Q52652232 | DNA Supercoiling, Topoisomerases, and Cohesin: Partners in Regulating Chromatin Architecture? |
Q30530278 | DNA catenation maintains structure of human metaphase chromosomes |
Q38594125 | DNA damage in the kidney tissue cells of the fish Rhamdia quelen after trophic contamination with aluminum sulfate |
Q36402069 | DNA damage responses and their many interactions with the replication fork |
Q27316712 | DNA dynamics during early double-strand break processing revealed by non-intrusive imaging of living cells |
Q44846720 | DNA interaction and dimerization of eukaryotic SMC hinge domains |
Q35965448 | DNA loops generate intracentromere tension in mitosis. |
Q33947036 | DNA replication and damage checkpoints and meiotic cell cycle controls in the fission and budding yeasts |
Q37498597 | DNA replication and spindle checkpoints cooperate during S phase to delay mitosis and preserve genome integrity |
Q35046592 | DNA structure dependent checkpoints as regulators of DNA repair |
Q37313703 | DNA topoisomerase II and its growing repertoire of biological functions. |
Q37032389 | Damage-induced reactivation of cohesin in postreplicative DNA repair |
Q30357275 | Decreased cohesin in the brain leads to defective synapse development and anxiety-related behavior |
Q42871751 | Defective histone supply causes condensin-dependent chromatin alterations, SAC activation and chromosome decatenation impairment. |
Q35201990 | Degradation of Drosophila PIM regulates sister chromatid separation during mitosis |
Q46385079 | Depletion of anaphase-promoting complex or cyclosome (APC/C) subunit homolog APC1 or CDC27 of Trypanosoma brucei arrests the procyclic form in metaphase but the bloodstream form in anaphase |
Q36423904 | Deregulation of RAD21 and RUNX1 expression in endometrial cancer. |
Q24307413 | Determinants of conformational dimerization of Mad2 and its inhibition by p31comet |
Q83232439 | Determining cellular CTCF and cohesin abundances to constrain 3D genome models |
Q64446103 | Diagnosis and management of Cornelia de Lange syndrome: first international consensus statement |
Q48120876 | Differential abundance and transcription of 14-3-3 proteins during vegetative growth and sexual reproduction in budding yeast. |
Q24337562 | Differential association of SMC1alpha and SMC3 proteins with meiotic chromosomes in wild-type and SPO11-deficient male mice |
Q42080665 | Differential regulation of telomere and centromere cohesion by the Scc3 homologues SA1 and SA2, respectively, in human cells |
Q40591024 | Direct visualization of transcription factor-induced chromatin remodeling and cofactor recruitment in vivo |
Q39647149 | Directional bias during mating type switching in Saccharomyces is independent of chromosomal architecture |
Q42436460 | Discovery of an unconventional centromere in budding yeast redefines evolution of point centromeres |
Q57270125 | Disjunction of Homologous Chromosomes in Meiosis I Depends on Proteolytic Cleavage of the Meiotic Cohesin Rec8 by Separin |
Q36138160 | Displacement and re-accumulation of centromeric cohesin during transient pre-anaphase centromere splitting |
Q52536390 | Disruption and functional analysis of seven ORFs on chromosome IV: YDL057w, YDL012c, YDL010w, YDL009c, YDL008w (APC11), YDL005c (MED2) and YDL003w (MCD1). |
Q28587256 | Disruption of CHTF18 causes defective meiotic recombination in male mice |
Q21146371 | Dissociation of cohesin from chromosome arms and loss of arm cohesion during early mitosis depends on phosphorylation of SA2. |
Q33745064 | Distant liaisons: long-range enhancer-promoter interactions in Drosophila. |
Q30479877 | Distinct developmental function of two Caenorhabditis elegans homologs of the cohesin subunit Scc1/Rad21. |
Q34241406 | Divergent kleisin subunits of cohesin specify mechanisms to tether and release meiotic chromosomes. |
Q38044384 | Diverse developmental disorders from the one ring: distinct molecular pathways underlie the cohesinopathies |
Q34195658 | Division of the nucleolus and its release of CDC14 during anaphase of meiosis I depends on separase, SPO12, and SLK19. |
Q24540345 | Does RNA polymerase help drive chromosome segregation in bacteria? |
Q47852737 | Drad21, a Drosophila rad21 homologue expressed in S-phase cells |
Q37277044 | Drosophila nipped-B protein supports sister chromatid cohesion and opposes the stromalin/Scc3 cohesion factor to facilitate long-range activation of the cut gene |
Q35081827 | Drosophila separase is required for sister chromatid separation and binds to PIM and THR |
Q48873086 | Dual inhibition of sister chromatid separation at metaphase |
Q35010137 | Dynamic trans interactions in yeast chromosomes. |
Q36922202 | Dynamics of centromeres during metaphase-anaphase transition in fission yeast: Dis1 is implicated in force balance in metaphase bipolar spindle |
Q45023626 | Dynamics of cohesin subunits in grasshopper meiotic divisions. |
Q52716666 | Dynamics of sister chromatid resolution during cell cycle progression. |
Q47104531 | E3 ubiquitin ligase Bre1 couples sister chromatid cohesion establishment to DNA replication in Saccharomyces cerevisiae. |
Q24675498 | EBNA1 partitions Epstein-Barr virus plasmids in yeast cells by attaching to human EBNA1-binding protein 2 on mitotic chromosomes |
Q24529069 | EBP2 plays a key role in Epstein-Barr virus mitotic segregation and is regulated by aurora family kinases |
Q27931454 | Eco1 is a novel acetyltransferase that can acetylate proteins involved in cohesion |
Q27937233 | Efficient chromosome biorientation and the tension checkpoint in Saccharomyces cerevisiae both require Bir1. |
Q59767699 | Electron cryotomography analysis of Dam1C/DASH at the kinetochore–spindle interface in situ |
Q96230605 | Emerging themes in cohesin cancer biology |
Q34025898 | Enhancer function: new insights into the regulation of tissue-specific gene expression |
Q34159012 | Epitope tag‐induced synthetic lethality between cohesin subunits and Ctf7/Eco1 acetyltransferase |
Q41786657 | Erratum to: Controlling the response to DNA damage by the APC/C-Cdh1. |
Q35156821 | Error-free DNA damage tolerance and sister chromatid proximity during DNA replication rely on the Polα/Primase/Ctf4 Complex |
Q57972039 | Error-free DNA damage tolerance pathway is facilitated by the Irc5 translocase through cohesin |
Q29616336 | Establishing biorientation occurs with precocious separation of the sister kinetochores, but not the arms, in the early spindle of budding yeast |
Q24535839 | Establishment and maintenance of sister chromatid cohesion in fission yeast by a unique mechanism |
Q49177511 | Establishment of DNA-DNA Interactions by the Cohesin Ring |
Q27938489 | Establishment of cohesion at the pericentromere by the Ctf19 kinetochore subcomplex and the replication fork-associated factor, Csm3 |
Q38408256 | Etiology and pathogenesis of the cohesinopathies. |
Q58696742 | Evidence of Promoting Sister Kinetochore Mono-orientation During Meiosis in Budding Yeast |
Q30454198 | Evidence that replication fork components catalyze establishment of cohesion between sister chromatids |
Q38103341 | Evolutionary cell biology of chromosome segregation: insights from trypanosomes |
Q90186568 | Evolutionary repair: Changes in multiple functional modules allow meiotic cohesin to support mitosis |
Q59828243 | Exit from Mitosis in Budding Yeast |
Q28769668 | Exploring the functions of RNA interference pathway proteins: some functions are more RISCy than others? |
Q35866745 | Expression profiles of cohesins, shugoshins and spindle assembly checkpoint genes in rhesus macaque oocytes predict their susceptibility for aneuploidy during embryonic development |
Q90468385 | FACT mediates cohesin function on chromatin |
Q35211143 | Faithful anaphase is ensured by Mis4, a sister chromatid cohesion molecule required in S phase and not destroyed in G1 phase |
Q45868432 | Familial skewed X-chromosome inactivation linked to a component of the cohesin complex, SA2. |
Q39452803 | Fission yeast Eso1p is required for establishing sister chromatid cohesion during S phase |
Q42543435 | Fission yeast Mog1p homologue, which interacts with the small GTPase Ran, is required for mitosis-to-interphase transition and poly(A)(+) RNA metabolism. |
Q37419131 | Frequent truncating mutations of STAG2 in bladder cancer |
Q35213838 | From a single double helix to paired double helices and back |
Q26998944 | Functional characterization of Anaphase Promoting Complex/Cyclosome (APC/C) E3 ubiquitin ligases in tumorigenesis |
Q27929804 | Functional characterization of Dma1 and Dma2, the budding yeast homologues of Schizosaccharomyces pombe Dma1 and human Chfr |
Q53071632 | Functional characterization of kinetochore protein, Ctf19 in meiosis I: an implication of differential impact of Ctf19 on the assembly of mitotic and meiotic kinetochores in Saccharomyces cerevisiae. |
Q34029275 | Functional characterization of the Saccharomyces cerevisiae protein Chl1 reveals the role of sister chromatid cohesion in the maintenance of spindle length during S-phase arrest |
Q30952975 | Functional dissection of in vivo interchromosome association in Saccharomyces cerevisiae |
Q27934438 | Functional genomics identifies monopolin: a kinetochore protein required for segregation of homologs during meiosis i. |
Q30837444 | Functional interplay between SA1 and TRF1 in telomeric DNA binding and DNA-DNA pairing |
Q36482080 | Functional links between Drosophila Nipped-B and cohesin in somatic and meiotic cells |
Q37470837 | Fungal apoptosis: function, genes and gene function |
Q37236200 | Gene clusters, molecular evolution and disease: a speculation |
Q38953390 | Generation of cell-based systems to visualize chromosome damage and translocations in living cells |
Q27936977 | Genes involved in sister chromatid separation and segregation in the budding yeast Saccharomyces cerevisiae. |
Q46284332 | Genetic Evidence for Sexuality in Cochliopodium (Amoebozoa). |
Q36958189 | Genetic Interactions Between the Meiosis-Specific Cohesin Components, STAG3, REC8, and RAD21L. |
Q34170374 | Genetic alterations of the cohesin complex genes in myeloid malignancies. |
Q35670471 | Genetic and cellular mechanisms in chromium and nickel carcinogenesis considering epidemiologic findings |
Q37961799 | Genetic and epigenetic dysregulation of imprinted genes in the brain |
Q34609210 | Genetic and molecular analysis of wings apart-like (wapl), a gene controlling heterochromatin organization in Drosophila melanogaster. |
Q27938325 | Genetic control of recombination partner preference in yeast meiosis. Isolation and characterization of mutants elevated for meiotic unequal sister-chromatid recombination. |
Q27932555 | Genetic dissection of parallel sister-chromatid cohesion pathways |
Q34605940 | Genetic interactions between mei-S332 and ord in the control of sister-chromatid cohesion |
Q42213757 | Genetically encoded fluorescent tags |
Q38813244 | Genome maintenance in the context of 4D chromatin condensation. |
Q38811354 | Genome stability: What we have learned from cohesinopathies. |
Q59071307 | Genome-wide genetic analysis of polyploidy in yeast |
Q34415765 | Genome-wide profiling of yeast DNA:RNA hybrid prone sites with DRIP-chip |
Q33965829 | Global analysis of core histones reveals nucleosomal surfaces required for chromosome bi-orientation. |
Q35904632 | Global reorganization of budding yeast chromosome conformation in different physiological conditions |
Q34477589 | H2A.Z (Htz1) controls the cell-cycle-dependent establishment of transcriptional silencing at Saccharomyces cerevisiae telomeres |
Q58696735 | HO Endonuclease-Initiated Recombination in Yeast Meiosis Fails To Promote Homologous Centromere Pairing and Is Not Constrained To Utilize the Dmc1 Recombinase |
Q28752659 | Handcuff for sisters: a new model for sister chromatid cohesion |
Q24554466 | Hec1p, an evolutionarily conserved coiled-coil protein, modulates chromosome segregation through interaction with SMC proteins |
Q27939140 | Hierarchical assembly of the budding yeast kinetochore from multiple subcomplexes |
Q27318586 | High resolution imaging reveals heterogeneity in chromatin states between cells that is not inherited through cell division |
Q51831228 | High-Throughput Live-Cell Microscopy Analysis of Association Between Chromosome Domains and the Nucleolus in S. cerevisiae. |
Q42596264 | Histone H3K4 monomethylation catalyzed by Trr and mammalian COMPASS-like proteins at enhancers is dispensable for development and viability. |
Q37188307 | Histone tail-independent chromatin binding activity of recombinant cohesin holocomplex |
Q34088890 | Homolog interaction during meiotic prophase I in Arabidopsis requires the SOLO DANCERS gene encoding a novel cyclin-like protein |
Q29617437 | Homologous recombination and non-homologous end-joining pathways of DNA double-strand break repair have overlapping roles in the maintenance of chromosomal integrity in vertebrate cells |
Q36129340 | How might cohesin hold sister chromatids together? |
Q24613913 | How to be a mitotic chromosome |
Q37368779 | Human EFO1p exhibits acetyltransferase activity and is a unique combination of linker histone and Ctf7p/Eco1p chromatid cohesion establishment domains |
Q24336745 | Human autoantibodies reveal titin as a chromosomal protein |
Q28143638 | Human chromatid cohesin component hRad21 is phosphorylated in M phase and associated with metaphase centromeres |
Q46471599 | Identification and characterisation of structural maintenance of chromosome 1 (smc1) mutants of Coprinopsis cinerea |
Q24685911 | Identification and characterization of SA/Scc3p subunits in the Xenopus and human cohesin complexes |
Q74323829 | Identification and characterization of a bacterial chromosome partitioning site |
Q57270131 | Identification of Cohesin Association Sites at Centromeres and along Chromosome Arms |
Q27938555 | Identification of RFC(Ctf18p, Ctf8p, Dcc1p): an alternative RFC complex required for sister chromatid cohesion in S. cerevisiae |
Q28275242 | Identification of Xenopus SMC protein complexes required for sister chromatid cohesion |
Q24321983 | Identification of a MAD2-binding protein, CMT2, and its role in mitosis |
Q27931448 | Identification of a novel non-structural maintenance of chromosomes (SMC) component of the SMC5-SMC6 complex involved in DNA repair |
Q42033568 | Identification of a region in the coiled-coil domain of Smc3 that is essential for cohesin activity |
Q27931376 | Identification of protein complexes required for efficient sister chromatid cohesion |
Q22004016 | Identification of two distinct human SMC protein complexes involved in mitotic chromosome dynamics |
Q98513571 | Identifying proteins bound to native mitotic ESC chromosomes reveals chromatin repressors are important for compaction |
Q34045588 | Imaging OmpR binding to native chromosomal loci in Escherichia coli |
Q33795322 | Imaging the fate of histone Cse4 reveals de novo replacement in S phase and subsequent stable residence at centromeres |
Q27930680 | Importance of Polη for damage-induced cohesion reveals differential regulation of cohesion establishment at the break site and genome-wide |
Q37095539 | Improved Determination of Subnuclear Position Enabled by Three-Dimensional Membrane Reconstruction |
Q35133995 | In vitro assembly of physiological cohesin/DNA complexes. |
Q27939283 | In vivo assembly and disassembly of Rad51 and Rad52 complexes during double-strand break repair |
Q27937391 | In vivo dissection of the chromosome condensation machinery: reversibility of condensation distinguishes contributions of condensin and cohesin |
Q40431638 | In vivo requirements for rDNA chromosome condensation reveal two cell-cycle-regulated pathways for mitotic chromosome folding |
Q41719576 | Inactivation of the budding yeast cohesin loader Scc2 alters gene expression both globally and in response to a single DNA double strand break |
Q24304181 | Increased DNA damage sensitivity of Cornelia de Lange syndrome cells: evidence for impaired recombinational repair |
Q37393539 | Increased sister chromatid cohesion and DNA damage response factor localization at an enzyme-induced DNA double-strand break in vertebrate cells. |
Q35471300 | Independent modulation of the kinase and polo-box activities of Cdc5 protein unravels unique roles in the maintenance of genome stability |
Q64114641 | Induced aneuploidy in neural stem cells triggers a delayed stress response and impairs adult life span in flies |
Q42917873 | Inhibition of the Smc5/6 complex during meiosis perturbs joint molecule formation and resolution without significantly changing crossover or non-crossover levels. |
Q26740196 | Insights into APC/C: from cellular function to diseases and therapeutics |
Q33565190 | Insights into chromatin structure and dynamics in plants |
Q92409824 | Integration of Gene Expression Profile Data to Verify Hub Genes of Patients with Stanford A Aortic Dissection |
Q27931416 | Integration of a splicing regulatory network within the meiotic gene expression program of Saccharomyces cerevisiae |
Q35593523 | Inter-chromosomal contact networks provide insights into Mammalian chromatin organization |
Q27935628 | Interactions between Centromere Complexes inSaccharomyces cerevisiae |
Q36274515 | Interallelic complementation provides functional evidence for cohesin-cohesin interactions on DNA. |
Q64885077 | Intermediate step of cohesin's ATPase cycle allows cohesin to entrap DNA. |
Q43543186 | Intermolecular DNA interactions stimulated by the cohesin complex in vitro: implications for sister chromatid cohesion |
Q36107795 | Investigating the Interplay between Sister Chromatid Cohesion and Homolog Pairing in Drosophila Nuclei |
Q24672492 | Involvement of the cohesin protein, Smc1, in Atm-dependent and independent responses to DNA damage |
Q27932876 | Iron-responsive transcription factor Aft1 interacts with kinetochore protein Iml3 and promotes pericentromeric cohesin |
Q47981888 | Isolation and characterization of SYN1, a RAD21-like gene essential for meiosis in Arabidopsis |
Q37349399 | Key players in chromosome segregation in Caenorhabditis elegans |
Q42637764 | Kinetochore inactivation by expression of a repressive mRNA. |
Q27935266 | Kinetochore orientation during meiosis is controlled by Aurora B and the monopolin complex |
Q27939356 | Kinetochore recruitment of two nucleolar proteins is required for homolog segregation in meiosis I. |
Q41790587 | Kinetochore-microtubule error correction is driven by differentially regulated interaction modes. |
Q36942436 | LAB-1 antagonizes the Aurora B kinase in C. elegans |
Q74535893 | Lack of tension at kinetochores activates the spindle checkpoint in budding yeast |
Q48723703 | Lampbrush chromosomes enable study of cohesin dynamics |
Q24548513 | Life history and developmental processes in the basidiomycete Coprinus cinereus |
Q24537892 | Linking sister chromatid cohesion and apoptosis: role of Rad21. |
Q47710701 | Live cell imaging of kinetochore capture by microtubules in budding yeast |
Q64107981 | Live imaging of marked chromosome regions reveals their dynamic resolution and compaction in mitosis |
Q34195835 | Live-cell analysis of kinetochore-microtubule interaction in budding yeast. |
Q30543821 | Live-cell chromosome dynamics and outcome of X chromosome pairing events during ES cell differentiation |
Q64283472 | Live-cell imaging reveals enhancer-dependent transcription in the absence of enhancer proximity |
Q42164459 | Live-cell imaging reveals replication of individual replicons in eukaryotic replication factories |
Q38044291 | Local and global functions of Timeless and Tipin in replication fork protection |
Q33651513 | Localisation of the SMC loading complex Nipbl/Mau2 during mammalian meiotic prophase I |
Q24305359 | Localization of human SMC1 protein at kinetochores |
Q37692307 | Long-range compaction and flexibility of interphase chromatin in budding yeast analyzed by high-resolution imaging techniques. |
Q39456488 | Loss of a protein phosphatase 2A regulatory subunit (Cdc55p) elicits improper regulation of Swe1p degradation |
Q40895245 | Loss of meiotic rereplication block in Saccharomyces cerevisiae cells defective in Cdc28p regulation |
Q46847496 | MIX-1: an essential component of the C. elegans mitotic machinery executes X chromosome dosage compensation |
Q35211811 | Maintenance of sister-chromatid cohesion at the centromere by the Drosophila MEI-S332 protein |
Q38317132 | Mammalian SMC3 C-terminal and coiled-coil protein domains specifically bind palindromic DNA, do not block DNA ends, and prevent DNA bending |
Q34085734 | Mammalian STAG3 is a cohesin specific to sister chromatid arms in meiosis I. |
Q24683053 | Mammalian p55CDC mediates association of the spindle checkpoint protein Mad2 with the cyclosome/anaphase-promoting complex, and is involved in regulating anaphase onset and late mitotic events |
Q37810497 | Many functions of the meiotic cohesin |
Q42153449 | Mapping the Synthetic Dosage Lethality Network of CDK1/CDC28. |
Q36322219 | Mating type-dependent constraints on the mobility of the left arm of yeast chromosome III. |
Q27931850 | Mechanical link between cohesion establishment and DNA replication: Ctf7p/Eco1p, a cohesion establishment factor, associates with three different replication factor C complexes |
Q38762817 | Mechanisms mitigating problems associated with multiple kinetochores on one microtubule in early mitosis |
Q26861558 | Mechanisms of cohesin-mediated gene regulation and lessons learned from cohesinopathies |
Q37263648 | Mechanisms of sister chromatid pairing |
Q36476907 | Meiosis I chromosome segregation is established through regulation of microtubule-kinetochore interactions. |
Q29346871 | Meiosis I is established through division-specific translational control of a cyclin |
Q60921975 | Meiosis-specific prophase-like pathway controls cleavage-independent release of cohesin by Wapl phosphorylation |
Q35968483 | Meiosis: cell-cycle controls shuffle and deal. |
Q50234120 | Meiotic Centromere Coupling and Pairing Function by Two Separate Mechanisms in Saccharomyces cerevisiae |
Q35879290 | Meiotic DNA replication |
Q34607612 | Meiotic chromosome dynamics dependent upon the rec8(+), rec10(+) and rec11(+) genes of the fission yeast Schizosaccharomyces pombe |
Q28573938 | Meiotic cohesin REC8 marks the axial elements of rat synaptonemal complexes before cohesins SMC1beta and SMC3 |
Q34343224 | Meiotic cohesin STAG3 is required for chromosome axis formation and sister chromatid cohesion |
Q27940088 | Meiotic condensin is required for proper chromosome compaction, SC assembly, and resolution of recombination-dependent chromosome linkages |
Q33921194 | Meiotic recombination intermediates are resolved with minimal crossover formation during return-to-growth, an analogue of the mitotic cell cycle |
Q21563611 | Metazoan Scc4 homologs link sister chromatid cohesion to cell and axon migration guidance |
Q46150157 | Methods to Study the Atypical Roles of DNA Repair and SMC Proteins in Gene Silencing |
Q36339146 | Methods to measure ubiquitin-dependent proteolysis mediated by the anaphase-promoting complex. |
Q73475075 | Micromechanical studies of mitotic chromosomes |
Q73908640 | Micromechanical studies of mitotic chromosomes |
Q35191567 | Micromechanics of chromatin and chromosomes |
Q33850826 | Microtubule-independent motility and nuclear targeting of adenoviruses with fluorescently labeled genomes |
Q39015471 | Mitochondrial retrograde signaling inhibits the survival during prolong S/G2 arrest in Saccharomyces cerevisiae |
Q30486223 | Mitotic exit in the absence of separase activity |
Q36370029 | Mitotic spindle integrity and kinetochore function linked by the Duo1p/Dam1p complex |
Q24296209 | Molecular architecture of SMC proteins and the yeast cohesin complex |
Q38818100 | Molecular mechanisms facilitating the initial kinetochore encounter with spindle microtubules |
Q48951524 | Molecular mechanisms of kinetochore capture by spindle microtubules |
Q89985801 | Monitoring the spatio-temporal organization and dynamics of the genome |
Q27321521 | Monopolin subunit Csm1 associates with MIND complex to establish monopolar attachment of sister kinetochores at meiosis I |
Q27930787 | Mps1 kinase promotes sister-kinetochore bi-orientation by a tension-dependent mechanism |
Q48503928 | Multiple Duties for Spindle Assembly Checkpoint Kinases in Meiosis. |
Q40733576 | Multiple Levels of Regulation of Sororin by Cdk1 and Aurora B. |
Q58806161 | Multiple determinants and consequences of cohesion fatigue in mammalian cells |
Q34558046 | Multiple opposing constraints govern chromosome interactions during meiosis |
Q34614318 | Multiple subunits of the Caenorhabditis elegans anaphase-promoting complex are required for chromosome segregation during meiosis I |
Q35954461 | Mutability and mutational spectrum of chromosome transmission fidelity genes |
Q27934947 | Mutation of YCS4, a budding yeast condensin subunit, affects mitotic and nonmitotic chromosome behavior. |
Q33788429 | N-terminal regions of Mps1 kinase determine functional bifurcation |
Q30832532 | Naa50/San-dependent N-terminal acetylation of Scc1 is potentially important for sister chromatid cohesion |
Q39384891 | New insights into cohesin loading |
Q33112262 | Nipbl Interacts with Zfp609 and the Integrator Complex to Regulate Cortical Neuron Migration |
Q34607037 | Nipped-B, a Drosophila homologue of chromosomal adherins, participates in activation by remote enhancers in the cut and Ultrabithorax genes. |
Q27940214 | Nnf1p, Dsn1p, Mtw1p, and Nsl1p: a new group of proteins important for chromosome segregation in Saccharomyces cerevisiae |
Q28210364 | Novel DNA sequence variants in the hHR21 DNA repair gene in radiosensitive cancer patients |
Q24548311 | Novel meiosis-specific isoform of mammalian SMC1 |
Q38776914 | Novel nuclear targeting coiled-coil protein of Helicobacter pylori showing Ca(2+)-independent, Mg(2+)-dependent DNase I activity |
Q33837080 | Novel response to microtubule perturbation in meiosis |
Q27933994 | Nsl1p is essential for the establishment of bipolarity and the localization of the Dam-Duo complex |
Q27939863 | Nuclear architecture and spatial positioning help establish transcriptional states of telomeres in yeast. |
Q35102169 | On control of singleton attractors in multiple Boolean networks: integer programming-based method |
Q37322178 | On the molecular etiology of Cornelia de Lange syndrome |
Q33942216 | One-hit wonders of genomic instability. |
Q33355284 | Organization and segregation of bacterial chromosomes |
Q53619980 | Organization of endoreduplicated chromosomes in the endosperm of Zea mays L. |
Q45066497 | OsREC8 is essential for chromatid cohesion and metaphase I monopolar orientation in rice meiosis |
Q28143831 | Overexpression of bamacan/SMC3 causes transformation |
Q99412819 | PCNA promotes context-specific sister chromatid cohesion establishment separate from that of chromatin condensation |
Q33761479 | PICH and cotargeted Plk1 coordinately maintain prometaphase chromosome arm architecture |
Q42828370 | PKA and MPF-activated polo-like kinase regulate anaphase-promoting complex activity and mitosis progression. |
Q37258492 | PTIP regulates 53BP1 and SMC1 at the DNA damage sites |
Q36975260 | PTTG: an important target gene for ovarian cancer therapy |
Q30836899 | Pathway network inference from gene expression data |
Q42121426 | Paxillin-dependent regulation of IGF2 and H19 gene cluster expression |
Q27939532 | Pds1 phosphorylation in response to DNA damage is essential for its DNA damage checkpoint function |
Q35133777 | Pds1/Esp1-dependent and -independent sister chromatid separation in mutants defective for protein phosphatase 2A. |
Q35203117 | Pds1p of budding yeast has dual roles: inhibition of anaphase initiation and regulation of mitotic exit |
Q27932492 | Pds5 cooperates with cohesin in maintaining sister chromatid cohesion. |
Q27932796 | Pds5 is required for homologue pairing and inhibits synapsis of sister chromatids during yeast meiosis |
Q35699651 | Pds5 regulators segregate cohesion and condensation pathways in Saccharomyces cerevisiae |
Q27931040 | Pds5p is an essential chromosomal protein required for both sister chromatid cohesion and condensation in Saccharomyces cerevisiae |
Q27936246 | Pds5p regulates the maintenance of sister chromatid cohesion and is sumoylated to promote the dissolution of cohesion |
Q37327282 | Pericentromeric sister chromatid cohesion promotes kinetochore biorientation. |
Q38500319 | PhenoM: a database of morphological phenotypes caused by mutation of essential genes in Saccharomyces cerevisiae |
Q42123632 | Phosphatase 2A negatively regulates mitotic exit in Saccharomyces cerevisiae |
Q40916856 | Phosphorylation of SMC1 is a critical downstream event in the ATM-NBS1-BRCA1 pathway |
Q36224561 | Phosphorylation of the Scc2 cohesin deposition complex subunit regulates chromosome condensation through cohesin integrity |
Q33948005 | Phosphorylation of the cohesin subunit Scc1 by Polo/Cdc5 kinase regulates sister chromatid separation in yeast |
Q27932118 | Physical Association of Saccharomyces cerevisiae Polo-like Kinase Cdc5 with Chromosomal Cohesin Facilitates DNA Damage Response. |
Q37341759 | Physical Proximity of Sister Chromatids Promotes Top2-Dependent Intertwining |
Q31036173 | Physical and functional interactions between nucleotide excision repair and DNA damage checkpoint |
Q35836086 | Positive and negative regulation of SMC-DNA interactions by ATP and accessory proteins |
Q24657395 | Positive feedback sharpens the anaphase switch |
Q37845069 | Predisposition to aneuploidy in the oocyte |
Q39958745 | Preferential cleavage of chromatin-bound cohesin after targeted phosphorylation by Polo-like kinase |
Q51864535 | Premature chromatid separation is not a useful diagnostic marker for Cornelia de Lange syndrome. |
Q88444838 | Principles of Chromosome Architecture Revealed by Hi-C |
Q24299175 | Processing, localization, and requirement of human separase for normal anaphase progression |
Q35186611 | Progression of meiotic DNA replication is modulated by interchromosomal interaction proteins, negatively by Spo11p and positively by Rec8p |
Q40444371 | Proper metaphase spindle length is determined by centromere proteins Mis12 and Mis6 required for faithful chromosome segregation |
Q39155608 | Prophase I: Preparing Chromosomes for Segregation in the Developing Oocyte |
Q33737226 | Prospects for the precise engineering of plant genomes by homologous recombination. |
Q37317376 | Protein phosphatase 1 regulates exit from the spindle checkpoint in budding yeast |
Q40112941 | Protein phosphatase 2A and separase form a complex regulated by separase autocleavage |
Q37503099 | Protein-mediated chromosome pairing of repetitive arrays |
Q27929851 | Proteins interacting with Lin 1p, a putative link between chromosome segregation, mRNA splicing and DNA replication in Saccharomyces cerevisiae |
Q54638088 | Psc3 cohesin of Schizosaccharomyces pombe: cell cycle analysis and identification of three distinct isoforms. |
Q27929523 | Putting the brake on FEAR: Tof2 promotes the biphasic release of Cdc14 phosphatase during mitotic exit |
Q30538694 | Quantitative analysis of chromosome condensation in fission yeast |
Q39519525 | Quantitative analysis of cohesin complex stoichiometry and SMC3 modification-dependent protein interactions. |
Q34694742 | Quantitative microscopy of green fluorescent protein-labeled yeast. |
Q53176379 | Quantitative proteomic analysis of yeast DNA replication proteins. |
Q35740611 | R-loop-mediated genome instability in mRNA cleavage and polyadenylation mutants |
Q37650655 | RAD21 cohesin overexpression is a prognostic and predictive marker exacerbating poor prognosis in KRAS mutant colorectal carcinomas. |
Q34643005 | REP3-mediated silencing in Saccharomyces cerevisiae |
Q41109745 | RNA pol II transcript abundance controls condensin accumulation at mitotically up-regulated and heat-shock-inducible genes in fission yeast |
Q34081406 | ROCC, a conserved region in cohesin's Mcd1 subunit, is essential for the proper regulation of the maintenance of cohesion and establishment of condensation |
Q33845865 | Rad18 is required for DNA repair and checkpoint responses in fission yeast |
Q33658791 | Rad21-cohesin haploinsufficiency impedes DNA repair and enhances gastrointestinal radiosensitivity in mice |
Q36817942 | Rad61/Wpl1 (Wapl), a cohesin regulator, controls chromosome compaction during meiosis |
Q37645037 | Radiation induces premature chromatid separation via the miR-142-3p/Bod1 pathway in carcinoma cells |
Q34910981 | Rap1p telomere association is not required for mitotic stability of a C(3)TA(2) telomere in yeast |
Q22009415 | Rec8p, a meiotic recombination and sister chromatid cohesion phosphoprotein of the Rad21p family conserved from fission yeast to humans |
Q89667135 | Recent advances in understanding the role of Cdk1 in the Spindle Assembly Checkpoint |
Q27932483 | Recombination protein Tid1p controls resolution of cohesin-dependent linkages in meiosis in Saccharomyces cerevisiae |
Q48170876 | Recruitment of Xenopus Scc2 and cohesin to chromatin requires the pre-replication complex |
Q28588139 | Reduction of Nipbl impairs cohesin loading locally and affects transcription but not cohesion-dependent functions in a mouse model of Cornelia de Lange Syndrome |
Q35097681 | Regulation of chromosome condensation and segregation |
Q38720285 | Regulation of initiation of S phase, replication checkpoint signaling, and maintenance of mitotic chromosome structures during S phase by Hsk1 kinase in the fission yeast |
Q39680532 | Regulation of intra-S phase checkpoint by ionizing radiation (IR)-dependent and IR-independent phosphorylation of SMC3. |
Q36325888 | Regulation of rtt107 recruitment to stalled DNA replication forks by the cullin rtt101 and the rtt109 acetyltransferase |
Q94461827 | Regulation of sister chromatid cohesion by nuclear PD-L1 |
Q38618811 | Regulation of sister chromatid cohesion during the mitotic cell cycle |
Q38288071 | Regulation of sororin by Cdk1-mediated phosphorylation |
Q33480014 | Regulation of the Drosophila Enhancer of split and invected-engrailed gene complexes by sister chromatid cohesion proteins |
Q37802427 | Regulation of the Ifng locus in the context of T-lineage specification and plasticity. |
Q36918801 | Regulation of the anaphase-promoting complex/cyclosome by bimAAPC3 and proteolysis of NIMA. |
Q38655683 | Releasing Activity Disengages Cohesin's Smc3/Scc1 Interface in a Process Blocked by Acetylation. |
Q36036805 | Rephrasing anaphase: separase FEARs shugoshin |
Q21135604 | Replication Factor C Complexes Play Unique Pro- and Anti-Establishment Roles in Sister Chromatid Cohesion |
Q37993652 | Replication fork dynamics and the DNA damage response. |
Q57009269 | Requirement of Chromatid Cohesion Proteins Rad21/Scc1 and Mis4/Scc2 for Normal Spindle-Kinetochore Interaction in Fission Yeast |
Q27935461 | Requirement of Skp1-Bub1 interaction for kinetochore-mediated activation of the spindle checkpoint |
Q91905381 | Resolution of human ribosomal DNA occurs in anaphase, dependent on tankyrase 1, condensin II, and topoisomerase IIα |
Q34015261 | Retinoic acid activates two pathways required for meiosis in mice |
Q33925395 | Retracted: Rtt107 Phosphorylation Promotes Localisation to DNA Double-Stranded Breaks (DSBs) and Recombinational Repair between Sister Chromatids |
Q55168231 | Retrotransposon targeting to RNA polymerase III-transcribed genes. |
Q53460288 | Rice ROOT ARCHITECTURE ASSOCIATED1 binds the proteasome subunit RPT4 and is degraded in a D-box and proteasome-dependent manner. |
Q48124123 | Rings and Bricks: Expression of Cohesin Components is Dynamic during Development and Adult Life |
Q24677000 | Rings, bracelet or snaps: fashionable alternatives for Smc complexes |
Q27932711 | Rmi1, a member of the Sgs1-Top3 complex in budding yeast, contributes to sister chromatid cohesion |
Q34742174 | Role for cohesin in the formation of a heterochromatic domain at fission yeast subtelomeres |
Q28533198 | Role of SMC1 in overcoming drug resistance in triple negative breast cancer |
Q35613075 | Roles of the sister chromatid cohesion apparatus in gene expression, development, and human syndromes |
Q91291846 | Rpd3L and Hda1 histone deacetylases facilitate repair of broken forks by promoting sister chromatid cohesion |
Q37665572 | S-phase and DNA damage activated establishment of sister chromatid cohesion--importance for DNA repair |
Q37220712 | S-phase checkpoint genes safeguard high-fidelity sister chromatid cohesion |
Q27937982 | SAGA interacting factors confine sub-diffusion of transcribed genes to the nuclear envelope |
Q42255573 | SMC complexes differentially compact mitotic chromosomes according to genomic context |
Q34522050 | SMC complexes: from DNA to chromosomes |
Q47926694 | SMC protein complexes and higher-order chromosome dynamics |
Q35037951 | SMC proteins and chromosome mechanics: from bacteria to humans |
Q27931613 | SMC1 coordinates DNA double-strand break repair pathways |
Q24292395 | SMC1 is a downstream effector in the ATM/NBS1 branch of the human S-phase checkpoint |
Q41876194 | SMC1A knockdown induces growth suppression of human lung adenocarcinoma cells through G1/S cell cycle phase arrest and apoptosis pathways in vitro |
Q39104508 | SMC3 knockdown triggers genomic instability and p53-dependent apoptosis in human and zebrafish cells |
Q24522626 | STAG2 and Rad21 mammalian mitotic cohesins are implicated in meiosis. |
Q34264526 | STAG2 promotes error correction in mitosis by regulating kinetochore-microtubule attachments. |
Q27931483 | SUMO localizes to the central element of synaptonemal complex and is required for the full synapsis of meiotic chromosomes in budding yeast |
Q27938516 | Saccharomyces cerevisiae CSM1 gene encoding a protein influencing chromosome segregation in meiosis I interacts with elements of the DNA replication complex |
Q27933988 | Saccharomyces cerevisiae CTF18 and CTF4 are required for sister chromatid cohesion |
Q24685010 | Saccharomyces cerevisiae DNA polymerase epsilon and polymerase sigma interact physically and functionally, suggesting a role for polymerase epsilon in sister chromatid cohesion |
Q28210241 | Scc1/Rad21/Mcd1 is required for sister chromatid cohesion and kinetochore function in vertebrate cells |
Q83232125 | Scc2 counteracts a Wapl-independent mechanism that releases cohesin from chromosomes during G1 |
Q35041597 | Scc2 regulates gene expression by recruiting cohesin to the chromosome as a transcriptional activator during yeast meiosis |
Q42367617 | Scc2/Nipbl hops between chromosomal cohesin rings after loading |
Q45806626 | Scoring and manipulating gene position and dynamics using FROS in budding yeast |
Q34287370 | Secured cutting: controlling separase at the metaphase to anaphase transition |
Q24545581 | Securin degradation is mediated by fzy and fzr, and is required for complete chromatid separation but not for cytokinesis |
Q77329368 | Segregation of minichromosomes in trypanosomes: implications for mitotic mechanisms |
Q47068969 | Separase is required for chromosome segregation during meiosis I in Caenorhabditis elegans |
Q28742198 | Separase loss of function cooperates with the loss of p53 in the initiation and progression of T- and B-cell lymphoma, leukemia and aneuploidy in mice |
Q37961766 | Separases: biochemistry and function |
Q33594202 | Separating sister chromatids |
Q33994995 | Separation anxiety at the centromere. |
Q34765551 | Sequencing of candidate chromosome instability genes in endometrial cancers reveals somatic mutations in ESCO1, CHTF18, and MRE11A |
Q27315020 | Sequential loading of cohesin subunits during the first meiotic prophase of grasshoppers |
Q103836760 | Shaping of the 3D genome by the ATPase machine cohesin |
Q34095025 | Shaping the metaphase chromosome: coordination of cohesion and condensation |
Q41906242 | Shugoshin biases chromosomes for biorientation through condensin recruitment to the pericentromere |
Q37362425 | Shugoshins function as a guardian for chromosomal stability in nuclear division |
Q40994875 | Single-Molecule Imaging Reveals a Collapsed Conformational State for DNA-Bound Cohesin |
Q92759494 | Sister DNA Entrapment between Juxtaposed Smc Heads and Kleisin of the Cohesin Complex |
Q34411870 | Sister acts: coordinating DNA replication and cohesion establishment |
Q36506688 | Sister chromatid cohesion |
Q37830975 | Sister chromatid cohesion control and aneuploidy. |
Q33632391 | Sister chromatid cohesion in mitosis |
Q77891942 | Sister chromatid cohesion in mitosis |
Q27933169 | Sister chromatid cohesion is required for postreplicative double-strand break repair in Saccharomyces cerevisiae. |
Q36873847 | Sister chromatid cohesion role for CDC28-CDK in Saccharomyces cerevisiae |
Q33912852 | Sister chromatid cohesion: the beginning of a long and beautiful relationship |
Q36851142 | Sister chromatid cohesion: the cohesin cleavage model does not ring true |
Q42673791 | Sister chromatid separation and chromosome re-duplication are regulated by different mechanisms in response to spindle damage |
Q28139443 | Sister-chromatid separation at anaphase onset is promoted by cleavage of the cohesin subunit Scc1 |
Q27935777 | Sli15 associates with the ipl1 protein kinase to promote proper chromosome segregation in Saccharomyces cerevisiae |
Q27930165 | Slk19 clusters kinetochores and facilitates chromosome bipolar attachment |
Q47881223 | Smc1β is required for activation of SAC during mouse oocyte meiosis |
Q36712636 | Sororin actively maintains sister chromatid cohesion |
Q24299569 | Sororin is required for stable binding of cohesin to chromatin and for sister chromatid cohesion in interphase |
Q34343252 | Sororin pre-mRNA splicing is required for proper sister chromatid cohesion in human cells |
Q37621327 | Spatial regulation and organization of DNA replication within the nucleus. |
Q38031469 | Spatio-temporal organization of replication in bacteria and eukaryotes (nucleoids and nuclei). |
Q33556059 | Spectrum and consequences of SMC1A mutations: the unexpected involvement of a core component of cohesin in human disease |
Q36321092 | Spindle-independent condensation-mediated segregation of yeast ribosomal DNA in late anaphase. |
Q64272854 | Spo13 prevents premature cohesin cleavage during meiosis |
Q39859976 | Spo13 protects meiotic cohesin at centromeres in meiosis I. |
Q27933180 | Spo13 regulates cohesin cleavage |
Q30746880 | Spo76p is a conserved chromosome morphogenesis protein that links the mitotic and meiotic programs |
Q36802831 | SpoIIIE strips proteins off the DNA during chromosome translocation. |
Q39665951 | Stable integration of an engineered megabase repeat array into the maize genome. |
Q41849720 | Staging a recovery from mitotic arrest: Unusual ways of Cdk1 |
Q35008883 | Stimulation of mTORC1 with L-leucine rescues defects associated with Roberts syndrome. |
Q41997371 | Stochastic association of neighboring replicons creates replication factories in budding yeast. |
Q42130577 | Structural Basis of Eco1-Mediated Cohesin Acetylation |
Q35826136 | Structural Insights into Separase Architecture and Substrate Recognition through Computational Modelling of Caspase-Like and Death Domains |
Q41035828 | Structural Maintenance of Chromosomes protein 1: Role in Genome Stability and Tumorigenesis |
Q37956288 | Structural insights into anaphase-promoting complex function and mechanism |
Q33700987 | Structural maintenance of chromosomes (SMC) proteins: conserved molecular properties for multiple biological functions |
Q27937303 | Structural maintenance of chromosomes protein C-terminal domains bind preferentially to DNA with secondary structure |
Q38966656 | Structural studies of RFCCtf18 reveal a novel chromatin recruitment role for Dcc1. |
Q24648497 | Structure and function of the PP2A-shugoshin interaction |
Q41314760 | Structure of the cohesin loader Scc2. |
Q35564845 | Structure, Function, and Regulation of Budding Yeast Kinetochores |
Q37811107 | Structure, function and mechanism of the anaphase promoting complex (APC/C) |
Q30308791 | Structure/function analysis of the Saccharomyces cerevisiae Trf4/Pol sigma DNA polymerase |
Q36316609 | Stu2 promotes mitotic spindle elongation in anaphase. |
Q60338806 | Studies on Substrate Recognition by the Budding Yeast Separase |
Q24316115 | Studies with the human cohesin establishment factor, ChlR1. Association of ChlR1 with Ctf18-RFC and Fen1 |
Q33740067 | Subcellular localization of Bacillus subtilis SMC, a protein involved in chromosome condensation and segregation. |
Q37297123 | Subnuclear positioning and interchromosomal clustering of the GAL1-10 locus are controlled by separable, interdependent mechanisms |
Q24305061 | Survivin is required for a sustained spindle checkpoint arrest in response to lack of tension |
Q27934172 | Swi5 controls a novel wave of cyclin synthesis in late mitosis |
Q37277380 | Swm1/Apc13 is an evolutionarily conserved subunit of the anaphase-promoting complex stabilizing the association of Cdc16 and Cdc27 |
Q27930215 | Synaptonemal complex morphogenesis and sister-chromatid cohesion require Mek1-dependent phosphorylation of a meiotic chromosomal protein |
Q39497623 | Synthetic lethal phenotypes caused by mutations affecting chromosome partitioning in Bacillus subtilis |
Q26991603 | Synthetic lethality and cancer: cohesin and PARP at the replication fork |
Q34192912 | Synthetic lethality of cohesins with PARPs and replication fork mediators |
Q39556437 | Systematic identification of protein combinations mediating chromatin looping. |
Q90212435 | Systematic proteomics of endogenous human cohesin reveals an interaction with diverse splicing factors and RNA-binding proteins required for mitotic progression |
Q41490148 | Systematic reduction of cohesin differentially affects chromosome segregation, condensation, and DNA repair |
Q27934377 | Systematic yeast synthetic lethal and synthetic dosage lethal screens identify genes required for chromosome segregation |
Q36091842 | TFIIIC localizes budding yeast ETC sites to the nuclear periphery |
Q48166021 | Taking cohesin and condensin in context. |
Q35688708 | Targeting Cdc20 as a novel cancer therapeutic strategy |
Q40649129 | Targeting of cohesin by transcriptionally silent chromatin. |
Q27940251 | Telomere tethering at the nuclear periphery is essential for efficient DNA double strand break repair in subtelomeric region |
Q34764300 | Telomeric protein distributions and remodeling through the cell cycle in Saccharomyces cerevisiae |
Q26824803 | Ten years of gene discovery for meiotic event control in rice |
Q34298424 | Tension between two kinetochores suffices for their bi-orientation on the mitotic spindle |
Q33789584 | Tension-dependent removal of pericentromeric shugoshin is an indicator of sister chromosome biorientation. |
Q36325654 | The 2 micron plasmid purloins the yeast cohesin complex: a mechanism for coupling plasmid partitioning and chromosome segregation? |
Q36678954 | The 3D Genome as Moderator of Chromosomal Communication |
Q36547714 | The ATM-dependent DNA damage signaling pathway |
Q34033039 | The ATPase SpoIIIE transports DNA across fused septal membranes during sporulation in Bacillus subtilis |
Q36452407 | The ATPases of cohesin interface with regulators to modulate cohesin-mediated DNA tethering |
Q92651169 | The Anaphase Promoting Complex/Cyclosome (APC/C): A Versatile E3 Ubiquitin Ligase |
Q35523282 | The AtRAD21.1 and AtRAD21.3 Arabidopsis cohesins play a synergistic role in somatic DNA double strand break damage repair |
Q27929776 | The Aurora kinase Ipl1 maintains the centromeric localization of PP2A to protect cohesin during meiosis |
Q44530413 | The CCT chaperonin promotes activation of the anaphase-promoting complex through the generation of functional Cdc20. |
Q27939790 | The Cdc14 Phosphatase and the FEAR Network Control Meiotic Spindle Disassembly and Chromosome Segregation |
Q27939642 | The Cdc42p effector Gic2p is targeted for ubiquitin-dependent degradation by the SCFGrr1 complex |
Q42048979 | The Cik1/Kar3 motor complex is required for the proper kinetochore-microtubule interaction after stressful DNA replication |
Q34380651 | The Coprinus cinereus adherin Rad9 functions in Mre11-dependent DNA repair, meiotic sister-chromatid cohesion, and meiotic homolog pairing |
Q47924667 | The DIF1 gene of Arabidopsis is required for meiotic chromosome segregation and belongs to the REC8/RAD21 cohesin gene family |
Q27938884 | The ELG1 clamp loader plays a role in sister chromatid cohesion |
Q28755256 | The Elg1-RFC clamp-loading complex performs a role in sister chromatid cohesion |
Q60932044 | The Emerging Role of Cohesin in the DNA Damage Response |
Q27930614 | The Iml3 protein of the budding yeast is required for the prevention of precocious sister chromatid separation in meiosis I and for sister chromatid disjunction in meiosis II. |
Q33878765 | The LSH/HELLS homolog Irc5 contributes to cohesin association with chromatin in yeast |
Q24296748 | The MCM-binding protein ETG1 aids sister chromatid cohesion required for postreplicative homologous recombination repair |
Q43125340 | The MRX complex stabilizes the replisome independently of the S phase checkpoint during replication stress |
Q38813539 | The Nucleoporin Nup2 Contains a Meiotic-Autonomous Region that Promotes the Dynamic Chromosome Events of Meiosis. |
Q29620201 | The Polo-like kinase Cdc5p and the WD-repeat protein Cdc20p/fizzy are regulators and substrates of the anaphase promoting complex in Saccharomyces cerevisiae |
Q41348459 | The RSC chromatin-remodeling complex influences mitotic exit and adaptation to the spindle assembly checkpoint by controlling the Cdc14 phosphatase. |
Q47946973 | The RSC nucleosome-remodeling complex is required for Cohesin's association with chromosome arms |
Q64388759 | The Rad50 hook domain is a critical determinant of Mre11 complex functions |
Q34618699 | The Role of Cdh1p in Maintaining Genomic Stability in Budding Yeast |
Q35692120 | The SMC Loader Scc2 Promotes ncRNA Biogenesis and Translational Fidelity |
Q37933389 | The SMC complexes, DNA and chromosome topology: right or knot? |
Q36963297 | The SMC1-SMC3 cohesin heterodimer structures DNA through supercoiling-dependent loop formation |
Q36280686 | The SUMO Pathway in Mitosis |
Q40970100 | The SUMO deconjugating peptidase Smt4 contributes to the mechanism required for transition from sister chromatid arm cohesion to sister chromatid pericentromere separation |
Q74371956 | The SUMO-1 isopeptidase Smt4 is linked to centromeric cohesion through SUMO-1 modification of DNA topoisomerase II |
Q42051038 | The SWI/SNF complex acts to constrain distribution of the centromeric histone variant Cse4. |
Q46212080 | The Saccharomyces cerevisiae Smc2/4 condensin compacts DNA into (+) chiral structures without net supercoiling |
Q31811868 | The Scc2-Scc4 complex acts in sister chromatid cohesion and transcriptional regulation by maintaining nucleosome-free regions |
Q37379575 | The Scc2/Scc4 cohesin loader determines the distribution of cohesin on budding yeast chromosomes. |
Q34279693 | The Schizosaccharomyces pombe rad60 gene is essential for repairing double-strand DNA breaks spontaneously occurring during replication and induced by DNA-damaging agents. |
Q42395973 | The Smc5/6 complex is required for dissolution of DNA-mediated sister chromatid linkages |
Q24683289 | The alternative Ctf18-Dcc1-Ctf8-replication factor C complex required for sister chromatid cohesion loads proliferating cell nuclear antigen onto DNA |
Q37628779 | The anaphase promoting complex regulates yeast lifespan and rDNA stability by targeting Fob1 for degradation |
Q37831976 | The application of Tet repressor in prokaryotic gene regulation and expression |
Q38151884 | The bacterial chromosome: architecture and action of bacterial SMC and SMC-like complexes. |
Q33899388 | The bending rigidity of mitotic chromosomes |
Q27934497 | The budding yeast Ipl1/Aurora protein kinase regulates mitotic spindle disassembly |
Q39738085 | The budding yeast PP2ACdc55 protein phosphatase prevents the onset of anaphase in response to morphogenetic defects |
Q28365645 | The budding yeast protein kinase Ipl1/Aurora allows the absence of tension to activate the spindle checkpoint |
Q27934353 | The budding yeast proteins Spc24p and Spc25p interact with Ndc80p and Nuf2p at the kinetochore and are important for kinetochore clustering and checkpoint control |
Q73075612 | The centromeric sister chromatid cohesion site directs Mcd1p binding to adjacent sequences |
Q35347889 | The chromosomal association of the Smc5/6 complex depends on cohesion and predicts the level of sister chromatid entanglement. |
Q24317260 | The cohesin complex is required for the DNA damage-induced G2/M checkpoint in mammalian cells |
Q24796686 | The cohesin complex: sequence homologies, interaction networks and shared motifs |
Q28541687 | The cohesin subunit Rad21 is required for synaptonemal complex maintenance, but not sister chromatid cohesion, during Drosophila female meiosis |
Q36255183 | The cohesion protein MEI-S332 localizes to condensed meiotic and mitotic centromeres until sister chromatids separate |
Q37063126 | The composition, functions, and regulation of the budding yeast kinetochore |
Q27933492 | The condensin complex governs chromosome condensation and mitotic transmission of rDNA. |
Q27937537 | The conserved protein kinase Ipl1 regulates microtubule binding to kinetochores in budding yeast |
Q43127710 | The conserved sporulation protein YneE inhibits DNA replication in Bacillus subtilis |
Q27930793 | The ctf13-30/CTF13 genomic haploinsufficiency modifier screen identifies the yeast chromatin remodeling complex RSC, which is required for the establishment of sister chromatid cohesion |
Q33890771 | The disappearance of cyclin B at the end of mitosis is regulated spatially in Drosophila cells |
Q28212662 | The dissociation of cohesin from chromosomes in prophase is regulated by Polo-like kinase |
Q38379648 | The distribution of α-kleisin during meiosis in the holocentromeric plant Luzula elegans. |
Q52161908 | The dual mechanism of separase regulation by securin |
Q33247457 | The dynamics of homologous pairing during mating type interconversion in budding yeast |
Q89649028 | The evolutionary plasticity of chromosome metabolism allows adaptation to constitutive DNA replication stress |
Q37761724 | The expanding universe of cohesin functions: a new genome stability caretaker involved in human disease and cancer. |
Q24298647 | The hsSsu72 phosphatase is a cohesin-binding protein that regulates the resolution of sister chromatid arm cohesion |
Q33817687 | The interactome of the atypical phosphatase Rtr1 in Saccharomyces cerevisiae |
Q93159272 | The interdependence of gene-regulatory elements and the 3D genome |
Q21092825 | The kinetochore is an enhancer of pericentric cohesin binding |
Q34434467 | The maintenance of chromosome structure: positioning and functioning of SMC complexes. |
Q42807299 | The mammalian Fizzy and Fizzy-related genes are regulated at the transcriptional and post-transcriptional levels |
Q34931800 | The many functions of SMC proteins in chromosome dynamics |
Q35004928 | The mitotic spindle is required for loading of the DASH complex onto the kinetochore |
Q34769846 | The molecular mechanism underlying Roberts syndrome involves loss of ESCO2 acetyltransferase activity |
Q37078613 | The multiple roles of cohesin in meiotic chromosome morphogenesis and pairing |
Q34645049 | The origin recognition complex links replication, sister chromatid cohesion and transcriptional silencing in Saccharomyces cerevisiae |
Q47813972 | The reconstituted human Chl12-RFC complex functions as a second PCNA loader |
Q34630681 | The relative ratio of condensin I to II determines chromosome shapes. |
Q57753489 | The replicative helicase MCM recruits cohesin acetyltransferase ESCO2 to mediate centromeric sister chromatid cohesion |
Q47373145 | The ribosomal DNA metaphase loop of Saccharomyces cerevisiae gets condensed upon heat stress in a Cdc14-independent TORC1-dependent manner |
Q48096998 | The rice OsRad21-4, an orthologue of yeast Rec8 protein, is required for efficient meiosis |
Q36669669 | The role of ATP-dependent machines in regulating genome topology |
Q74503540 | The role of the Mre11-Rad50-Xrs2 complex in telomerase- mediated lengthening of Saccharomyces cerevisiae telomeres |
Q35831519 | The roles of cohesins in mitosis, meiosis, and human health and disease |
Q33957643 | The schizosaccharomyces pombe dim1(+) gene interacts with the anaphase-promoting complex or cyclosome (APC/C) component lid1(+) and is required for APC/C function |
Q37865845 | The sister bonding of duplicated chromosomes |
Q56951146 | The spindle checkpoint |
Q27931883 | The spindle checkpoint. |
Q27930052 | The spindle pole body assembly component mps3p/nep98p functions in sister chromatid cohesion |
Q24291165 | The structural maintenance of chromosomes (SMC) family of proteins in mammals |
Q28283003 | The symmetrical structure of structural maintenance of chromosomes (SMC) and MukB proteins: long, antiparallel coiled coils, folded at a flexible hinge |
Q34425136 | The synergistic cytotoxicity of clofarabine, fludarabine and busulfan in AML cells involves ATM pathway activation and chromatin remodeling |
Q22009054 | The topoisomerase-related function gene TRF4 affects cellular sensitivity to the antitumor agent camptothecin |
Q64387836 | The yeast CDK inhibitor Sic1 prevents genomic instability by promoting replication origin licensing in late G(1) |
Q27936620 | The yeast RSC chromatin-remodeling complex is required for kinetochore function in chromosome segregation |
Q36321537 | The yeast S phase checkpoint enables replicating chromosomes to bi-orient and restrain spindle extension during S phase distress |
Q42159962 | The zinc finger of Eco1 enhances its acetyltransferase activity during sister chromatid cohesion |
Q41622762 | Three-dimensional electron microscopy analysis of ndc10-1 mutant reveals an aberrant organization of the mitotic spindle and spindle pole body defects in Saccharomyces cerevisiae |
Q47317900 | Topologically associating domains and chromatin loops depend on cohesin and are regulated by CTCF, WAPL, and PDS5 proteins. |
Q27332369 | Topology and structure of an engineered human cohesin complex bound to Pds5B. |
Q27936822 | Toward a comprehensive temperature-sensitive mutant repository of the essential genes of Saccharomyces cerevisiae |
Q90266969 | Towards a Better Understanding of Cohesin Mutations in AML |
Q42911076 | Transcription alters chromosomal locations of cohesin in Saccharomyces cerevisiae |
Q39846304 | Transcription facilitates sister chromatid cohesion on chromosomal arms |
Q73990285 | Transient sister chromatid separation and elastic deformation of chromosomes during mitosis in budding yeast |
Q34623429 | Translational and post-translational modifications in meiosis of the mammalian oocyte |
Q42391399 | Translational mechanisms at work in the cohesinopathies |
Q73487714 | Two different modes of cyclin clb2 proteolysis during mitosis in Saccharomyces cerevisiae |
Q28609170 | Two distinct pathways remove mammalian cohesin from chromosome arms in prophase and from centromeres in anaphase |
Q29615266 | Un ménage à quatre: the molecular biology of chromosome segregation in meiosis |
Q28756062 | Unzipped and loaded: the role of DNA helicases and RFC clamp-loading complexes in sister chromatid cohesion |
Q39964777 | Using molecular tethering to analyze the role of nuclear compartmentalization in the regulation of mammalian gene activity |
Q30660203 | Variations in dysfunction of sister chromatid cohesion in esco2 mutant zebrafish reflect the phenotypic diversity of Roberts syndrome |
Q54674915 | Visualization of a Specific Genome Locus by the lacO/LacI-GFP System. |
Q50522111 | Visualization of the dynamic behavior of ribosomal RNA gene repeats in living yeast cells. |
Q47105112 | Visualizing the complex functions and mechanisms of the anaphase promoting complex/cyclosome (APC/C). |
Q85195035 | Visualizing yeast chromosomes and nuclear architecture |
Q24317464 | Wapl controls the dynamic association of cohesin with chromatin |
Q34707055 | What is your assay for sister-chromatid cohesion? |
Q21562294 | When the genome plays dice: circumvention of the spindle assembly checkpoint and near-random chromosome segregation in multipolar cancer cell mitoses |
Q27932982 | Ybp2 associates with the central kinetochore of Saccharomyces cerevisiae and mediates proper mitotic progression |
Q33949949 | Yeast Dam1p has a role at the kinetochore in assembly of the mitotic spindle |
Q27932332 | Yeast Rio1p is the founding member of a novel subfamily of protein serine kinases involved in the control of cell cycle progression |
Q24608777 | Yeast cohesin complex requires a conserved protein, Eco1p(Ctf7), to establish cohesion between sister chromatids during DNA replication |
Q27934362 | Yeast importin-β is required for nuclear import of the Mig2 repressor |
Q42323294 | Zds1 regulates PP2A(Cdc55) activity and Cdc14 activation during mitotic exit through its Zds_C motif. |
Q46564751 | Zebrafish as a Model to Study Cohesin and Cohesinopathies |
Q94656800 | Zooming in on chromosome dynamics |
Q77116066 | [When chromosomal dynamics control cell division] |
Q36256003 | pEg7, a new Xenopus protein required for mitotic chromosome condensation in egg extracts |
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