| scholarly article | Q13442814 |
| P2093 | author name string | Gerace L | |
| Taniura H | |||
| Glass C | |||
| P2860 | cites work | Homologies in both primary and secondary structure between nuclear envelope and intermediate filament proteins | Q24298586 |
| In vitro posttranslational modification of lamin B cloned from a human T-cell line | Q24600423 | ||
| Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 | Q25938983 | ||
| Integral membrane proteins of the nuclear envelope interact with lamins and chromosomes, and binding is modulated by mitotic phosphorylation | Q28260206 | ||
| Cloning of a cDNA for lamina-associated polypeptide 2 (LAP2) and identification of regions that specify targeting to the nuclear envelope | Q28564158 | ||
| cDNA cloning of a germ cell specific lamin B3 from mouse spermatocytes and analysis of its function by ectopic expression in somatic cells. | Q34040617 | ||
| Differences of supranucleosomal organization in different kinds of chromatin: cell type-specific globular subunits containing different numbers of nucleosomes | Q34267736 | ||
| Molecular trafficking across the nuclear pore complex | Q35234715 | ||
| Assembly-disassembly of the nuclear lamina | Q35978070 | ||
| Identification of a major polypeptide of the nuclear pore complex | Q36209313 | ||
| Spatial organization of chromosomes in the salivary gland nuclei of Drosophila melanogaster | Q36214067 | ||
| Three-dimensional organization of Drosophila melanogaster interphase nuclei. I. Tissue-specific aspects of polytene nuclear architecture | Q36216182 | ||
| Lamins A and C bind and assemble at the surface of mitotic chromosomes | Q36223712 | ||
| Amino acid sequence and molecular characterization of murine lamin B as deduced from cDNA clones. | Q36442298 | ||
| Expression of chicken lamin B2 in Escherichia coli: characterization of its structure, assembly, and molecular interactions | Q36529625 | ||
| Complex formation of platelet membrane glycoproteins IIb and IIIa with fibrinogen | Q37007168 | ||
| Nuclear lamin proteins: domains required for nuclear targeting, assembly, and cell-cycle-regulated dynamics | Q37188217 | ||
| cDNA sequencing of nuclear lamins A and C reveals primary and secondary structural homology to intermediate filament proteins | Q37397300 | ||
| Functional organization of the nuclear envelope | Q38195057 | ||
| The in vitro DNA-binding properties of purified nuclear lamin proteins and vimentin. | Q38340485 | ||
| Binding of matrix attachment regions to lamin polymers involves single-stranded regions and the minor groove | Q38506653 | ||
| Binding of matrix attachment regions to lamin B1 | Q38508299 | ||
| RNA travel: Tracks from DNA to cytoplasm | Q40491485 | ||
| Lamins and lamin-associated proteins. | Q40626423 | ||
| Making heads and tails of intermediate filament assembly, dynamics and networks | Q40744883 | ||
| The alpha-helical rod domain of human lamins A and C contains a chromatin binding site | Q40874374 | ||
| Characterization of a second highly conserved B-type lamin present in cells previously thought to contain only a single B-type lamin | Q41720339 | ||
| On the cell-free association of lamins A and C with metaphase chromosomes | Q41950432 | ||
| Lamin B distribution and association with peripheral chromatin revealed by optical sectioning and electron microscopy tomography | Q43109900 | ||
| Binding of lamin A to polynucleosomes | Q44101027 | ||
| Torsional stress stabilizes extended base unpairing in suppressor sites flanking immunoglobulin heavy chain enhancer | Q46192220 | ||
| Identification and cloning of an mRNA coding for a germ cell-specific A-type lamin in mice | Q48081964 | ||
| Cloning and sequencing of cDNA clones encoding chicken lamins A and B1 and comparison of the primary structures of vertebrate A- and B-type lamins | Q48290157 | ||
| A second higher vertebrate B-type lamin. cDNA sequence determination and in vitro processing of chicken lamin B2. | Q48290261 | ||
| Nucleotide sequence of the full-length mouse lamin C cDNA and its deduced amino-acid sequence | Q48295327 | ||
| Interaction of Xenopus lamins A and LII with chromatin in vitro mediated by a sequence element in the carboxyterminal domain. | Q50796076 | ||
| Interaction of DNA with nuclear scaffolds in vitro. | Q52459583 | ||
| The role of the head and tail domain in lamin structure and assembly: analysis of bacterially expressed chicken lamin A and truncated B2 lamins | Q54685334 | ||
| Expression in Escherichia coli of human lamins A and C: influence of head and tail domains on assembly properties and paracrystal formation. | Q54696205 | ||
| The nuclear lamina is a meshwork of intermediate-type filaments | Q59091782 | ||
| In vitro reconstitution of recombinant lamin A and a lamin A mutant lacking the carboxy-terminal tail | Q68036136 | ||
| Integral membrane proteins and dynamic organization of the nuclear envelope | Q75293384 | ||
| Preparation of native chromatin and damage caused by shearing | Q80946881 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 12 | |
| P304 | page(s) | 33-44 | |
| P577 | publication date | 1995-10-01 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | A chromatin binding site in the tail domain of nuclear lamins that interacts with core histones | |
| P478 | volume | 131 |
| Q24671540 | A carboxyl-terminal interaction of lamin B1 is dependent on the CAAX endoprotease Rce1 and carboxymethylation |
| Q36404918 | A genetic locus targeted to the nuclear periphery in living cells maintains its transcriptional competence |
| Q24311441 | A novel domain of caveolin-2 that controls nuclear targeting: regulation of insulin-specific ERK activation and nuclear translocation by caveolin-2 |
| Q44945467 | A phosphorylation cluster in the chromatin-binding region regulates chromosome association of LAP2alpha |
| Q36377945 | A role for nuclear lamins in nuclear envelope assembly |
| Q36249005 | A-type lamin complexes and regenerative potential: a step towards understanding laminopathic diseases? |
| Q37352413 | A-type nuclear lamins act as transcriptional repressors when targeted to promoters. |
| Q42823083 | Actin cytoskeleton differentially alters the dynamics of lamin A, HP1α and H2B core histone proteins to remodel chromatin condensation state in living cells |
| Q41205134 | An alternative splicing product of the lamin A/C gene lacks exon 10. |
| Q26747324 | Anchoring a Leviathan: How the Nuclear Membrane Tethers the Genome |
| Q33276412 | Artificially introduced aneuploid chromosomes assume a conserved position in colon cancer cells |
| Q32042095 | Atypical antineutrophil cytoplasmic antibodies with perinuclear fluorescence in chronic inflammatory bowel diseases and hepatobiliary disorders colocalize with nuclear lamina proteins |
| Q38629738 | Baculovirus infection induces disruption of the nuclear lamina. |
| Q52547406 | Binding of matrix attachment regions to nuclear lamin is mediated by the rod domain and depends on the lamin polymerization state. |
| Q50231122 | Break of symmetry in regenerating tobacco protoplasts is independent of nuclear positioning |
| Q39647076 | Caspase-6 gene disruption reveals a requirement for lamin A cleavage in apoptotic chromatin condensation |
| Q53554488 | Cell nuclei spin in the absence of lamin b1. |
| Q33559905 | Cell-extrinsic defective lymphocyte development in Lmna(-/-) mice |
| Q52670843 | Characterization of the Drosophila melanogaster genome at the nuclear lamina. |
| Q92507493 | Chromatin compartment dynamics in a haploinsufficient model of cardiac laminopathy |
| Q36266878 | Chromatin dynamics in interphase nuclei and its implications for nuclear structure |
| Q37147256 | Chromatin organization in relation to the nuclear periphery |
| Q37786007 | Chromatin plasticity in pluripotent cells |
| Q34831329 | Chromosome positioning in the interphase nucleus |
| Q24629239 | Cleavage of lamin A by Mch2 alpha but not CPP32: multiple interleukin 1 beta-converting enzyme-related proteases with distinct substrate recognition properties are active in apoptosis |
| Q57793606 | Coaching from the sidelines: the nuclear periphery in genome regulation |
| Q35952623 | Confocal Analysis of Nuclear Lamina Behavior during Male Meiosis and Spermatogenesis in Drosophila melanogaster. |
| Q24292954 | Conformational changes in the nuclear lamina induced by herpes simplex virus type 1 require genes U(L)31 and U(L)34 |
| Q40899520 | Deconstructing the nucleus: global architecture from local interactions |
| Q39733353 | Defects in lamin B1 expression or processing affect interphase chromosome position and gene expression |
| Q41159640 | Degradation of topoisomerase IIalpha during adenovirus E1A-induced apoptosis is mediated by the activation of the ubiquitin proteolysis system |
| Q24533299 | Detergent-salt resistance of LAP2alpha in interphase nuclei and phosphorylation-dependent association with chromosomes early in nuclear assembly implies functions in nuclear structure dynamics. |
| Q41590868 | Developmental modulation of the nuclear envelope. |
| Q24539152 | Different mutations in the LMNA gene cause autosomal dominant and autosomal recessive Emery-Dreifuss muscular dystrophy. |
| Q36305787 | Differential basal-to-apical accessibility of lamin A/C epitopes in the nuclear lamina regulated by changes in cytoskeletal tension |
| Q41374034 | Disruption of the lamin A and matrin-3 interaction by myopathic LMNA mutations |
| Q34450292 | Dynamics of passive and active particles in the cell nucleus |
| Q73349012 | Effects of expressing lamin A mutant protein causing Emery-Dreifuss muscular dystrophy and familial partial lipodystrophy in HeLa cells |
| Q52569974 | Emerin modulates spatial organization of chromosome territories in cells on softer matrices. |
| Q34240633 | Endoplasmic reticulum of animal cells and its organization into structural and functional domains |
| Q38490249 | Essential roles for Caenorhabditis elegans lamin gene in nuclear organization, cell cycle progression, and spatial organization of nuclear pore complexes |
| Q36972637 | Fast regulation of AP-1 activity through interaction of lamin A/C, ERK1/2, and c-Fos at the nuclear envelope |
| Q33996207 | Functional dissection of YA, an essential, developmentally regulated nuclear lamina protein in Drosophila melanogaster |
| Q35586705 | Gene expression and nuclear architecture during development and differentiation |
| Q93007880 | HiPLA: High-throughput imaging proximity ligation assay |
| Q36588126 | Histone modifications and lamin A regulate chromatin protein dynamics in early embryonic stem cell differentiation |
| Q24647743 | Histone modifications and nuclear architecture: a review |
| Q28276671 | Human laminopathies: nuclei gone genetically awry |
| Q28235710 | Identification of a novel muscle A-type lamin-interacting protein (MLIP) |
| Q33737760 | Identification of an essential domain in the herpes simplex virus 1 UL34 protein that is necessary and sufficient to interact with UL31 protein |
| Q74489370 | In vitro interaction of the carboxy-terminal domain of lamin A with actin |
| Q35237089 | Insulin-response epigenetic activation of Egr-1 and JunB genes at the nuclear periphery by A-type lamin-associated pY19-Caveolin-2 in the inner nuclear membrane |
| Q24683793 | Integral membrane proteins of the nuclear envelope are dispersed throughout the endoplasmic reticulum during mitosis |
| Q39575381 | Interactions among Drosophila nuclear envelope proteins lamin, otefin, and YA. |
| Q36360354 | Involvement of the lamin rod domain in heterotypic lamin interactions important for nuclear organization |
| Q40947817 | Keratin 19 downregulation by oral squamous cell carcinoma lines increases invasive potential |
| Q64283787 | Kinesin-14 motor protein KIFC1 participates in DNA synthesis and chromatin maintenance |
| Q52882876 | Lamin A reassembly at the end of mitosis is regulated by its SUMO-interacting motif. |
| Q36587972 | Lamin A tail modification by SUMO1 is disrupted by familial partial lipodystrophy-causing mutations |
| Q39181367 | Lamin A/C Cardiomyopathies: Current Understanding and Novel Treatment Strategies |
| Q64278906 | Lamin A/C and Emerin depletion impacts chromatin organization and dynamics in the interphase nucleus |
| Q28511959 | Lamin A/C and emerin are critical for skeletal muscle satellite cell differentiation |
| Q36324279 | Lamin A/C speckles mediate spatial organization of splicing factor compartments and RNA polymerase II transcription |
| Q24564213 | Lamin B1 is required for mouse development and nuclear integrity |
| Q47108405 | Lamin B2 Modulates Nucleolar Morphology, Dynamics, and Function |
| Q33752204 | Lamin-binding Proteins |
| Q36275039 | Lamin-binding fragment of LAP2 inhibits increase in nuclear volume during the cell cycle and progression into S phase |
| Q64064616 | Lamina Associated Domains and Gene Regulation in Development and Cancer |
| Q35923554 | Laminopathies |
| Q34569468 | Laminopathies: multiple disorders arising from defects in nuclear architecture |
| Q50640674 | Lamins A and C are present in the nuclei of early porcine embryos, with lamin A being distributed in large intranuclear foci. |
| Q38698252 | Lamins in the nuclear interior - life outside the lamina |
| Q48181509 | Lco1 is a novel widely expressed lamin-binding protein in the nuclear interior |
| Q24336480 | Loss of a DNA binding site within the tail of prelamin A contributes to altered heterochromatin anchorage by progerin |
| Q72994171 | MAF1, a novel plant protein interacting with matrix attachment region binding protein MFP1, is located at the nuclear envelope |
| Q40480429 | MAN1, an integral protein of the inner nuclear membrane, binds Smad2 and Smad3 and antagonizes transforming growth factor-beta signaling. |
| Q33852576 | MENT, a heterochromatin protein that mediates higher order chromatin folding, is a new serpin family member |
| Q35342310 | Magnetic manipulation of nanorods in the nucleus of living cells |
| Q36237237 | Mapping of lamin A- and progerin-interacting genome regions |
| Q36617270 | Mechanical regulation of nuclear structure and function. |
| Q40995573 | Microinjection of Antibodies Targeting the Lamin A/C Histone-Binding Site Blocks Mitotic Entry and Reveals Separate Chromatin Interactions with HP1, CenpB and PML. |
| Q45893922 | Microtubule dynamics alter the interphase nucleus |
| Q34972521 | Mutations in LMNA modulate the lamin A--Nesprin-2 interaction and cause LINC complex alterations |
| Q22009039 | Mutations in the gene encoding lamin A/C cause autosomal dominant Emery-Dreifuss muscular dystrophy |
| Q34489171 | NET23/STING promotes chromatin compaction from the nuclear envelope |
| Q52583668 | New biological research and understanding of Papanicolaou's test. |
| Q52843884 | Non-farnesylated B-type lamin can tether chromatin inside the nucleus and its chromatin interaction requires the Ig-fold region. |
| Q35194606 | Nuclear envelope and genome interactions in cell fate |
| Q47895956 | Nuclear envelope assembly after mitosis |
| Q36258265 | Nuclear envelope, nuclear lamina, and inherited disease |
| Q37962667 | Nuclear lamina at the crossroads of the cytoplasm and nucleus |
| Q34136884 | Nuclear lamins |
| Q34925545 | Nuclear lamins and chromatin: when structure meets function. |
| Q35831988 | Nuclear lamins: key regulators of nuclear structure and activities |
| Q34766646 | Nuclear lamins: major factors in the structural organization and function of the nucleus and chromatin |
| Q40243719 | Nuclear membrane vesicle targeting to chromatin in a Drosophila embryo cell-free system |
| Q34654052 | Nucleoplasmic lamins and their interaction partners, LAP2alpha, Rb, and BAF, in transcriptional regulation. |
| Q24552769 | Nup50, a nucleoplasmically oriented nucleoporin with a role in nuclear protein export |
| Q34554258 | Order and disorder in the nucleus |
| Q37248204 | Organization of nuclear architecture during adipocyte differentiation |
| Q38087890 | Partners and post-translational modifications of nuclear lamins |
| Q28071818 | Physiological and Pathological Aging Affects Chromatin Dynamics, Structure and Function at the Nuclear Edge |
| Q22010630 | Prenylated prelamin A interacts with Narf, a novel nuclear protein |
| Q40175421 | Primary laminopathy fibroblasts display altered genome organization and apoptosis. |
| Q34024729 | Proteomic Analysis of Fatty-acylated Proteins in Mammalian Cells with Chemical Reporters Reveals S-Acylation of Histone H3 Variants |
| Q77572367 | Putting the genome on the map |
| Q28581769 | Rab6-mediated retrograde transport regulates inner nuclear membrane targeting of caveolin-2 in response to insulin |
| Q28083281 | Regulation of lamin properties and functions: does phosphorylation do it all? |
| Q34718080 | Remodelling the walls of the nucleus |
| Q37188083 | Role of nuclear lamins in nuclear organization, cellular signaling, and inherited diseases |
| Q36293369 | Roles of LAP2 proteins in nuclear assembly and DNA replication: truncated LAP2beta proteins alter lamina assembly, envelope formation, nuclear size, and DNA replication efficiency in Xenopus laevis extracts |
| Q92937255 | SIRT7 mediates L1 elements transcriptional repression and their association with the nuclear lamina |
| Q36255006 | Spatial organization of large-scale chromatin domains in the nucleus: a magnified view of single chromosome territories. |
| Q40593180 | Specific nuclear envelope transmembrane proteins can promote the location of chromosomes to and from the nuclear periphery. |
| Q58731949 | Structural analysis of the ternary complex between lamin A/C, BAF and emerin identifies an interface disrupted in autosomal recessive progeroid diseases |
| Q35119345 | Systematic identification of pathological lamin A interactors |
| Q55241664 | Temporal Changes in Nucleus Morphology, Lamin A/C and Histone Methylation During Nanotopography-Induced Neuronal Differentiation of Stem Cells. |
| Q39932341 | Tethering by lamin A stabilizes and targets the ING1 tumour suppressor |
| Q33953712 | The Drosophila nuclear lamina protein YA binds to DNA and histone H2B with four domains |
| Q39029494 | The Nuclear Option: Evidence Implicating the Cell Nucleus in Mechanotransduction |
| Q36143813 | The abundance of Rad51 protein in mouse embryonic stem cells is regulated at multiple levels |
| Q64464352 | The apparent absence of lamin B1 and emerin in many tissue nuclei is due to epitope masking |
| Q28201566 | The binding of lamin B receptor to chromatin is regulated by phosphorylation in the RS region |
| Q34185976 | The different function of single phosphorylation sites of Drosophila melanogaster lamin Dm and lamin C |
| Q24561697 | The lamin B receptor (LBR) provides essential chromatin docking sites at the nuclear envelope |
| Q34189692 | The lamin protein family. |
| Q28261465 | The major nuclear envelope targeting domain of LAP2 coincides with its lamin binding region but is distinct from its chromatin interaction domain |
| Q26853003 | The nuclear envelope as a chromatin organizer |
| Q41812502 | The nuclear envelope as a mechanostat: a central cog in the machinery of cell and tissue regulation? |
| Q36059649 | The nuclear envelope protein Nesprin-2 has roles in cell proliferation and differentiation during wound healing. |
| Q35200844 | The nuclear lamina and its functions in the nucleus |
| Q38065087 | The nuclear lamins: flexibility in function |
| Q34459181 | The role of chromatin structure in cell migration |
| Q35061680 | The tail domain of lamin Dm0 binds histones H2A and H2B |
| Q37586979 | Tissue specificity in the nuclear envelope supports its functional complexity. |
| Q33834124 | Uncoordinated transcription and compromised muscle function in the lmna-null mouse model of Emery- Emery-Dreyfuss muscular dystrophy. |
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