review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Goldberg RB | |
Beals TP | |||
Sanders PM | |||
P2860 | cites work | Barnase and barstar: two small proteins to fold and fit together | Q28274023 |
Different Temporal and Spatial Gene Expression Patterns Occur during Anther Development | Q30857878 | ||
Regional and cell-specific gene expression patterns during petal development | Q31042377 | ||
The role of initial cells in maize anther morphogenesis | Q33338702 | ||
LEAFY controls floral meristem identity in Arabidopsis | Q33338883 | ||
Molecular characterization of the Arabidopsis floral homeotic gene APETALA1 | Q33338903 | ||
GLOBOSA: a homeotic gene which interacts with DEFICIENS in the control of Antirrhinum floral organogenesis. | Q33338909 | ||
The internal meristem layer (L3) determines floral meristem size and carpel number in tomato periclinal chimeras | Q33339063 | ||
Developmental programming of the shoot meristem | Q33361656 | ||
Identification and characterization of stamen- and tapetum-specific genes from tomato. | Q34159802 | ||
Male-sterility induction in transgenic tobacco plants with an unedited atp9 mitochondrial gene from wheat | Q36170980 | ||
Organ-specific nuclear RNAs in tobacco | Q36259478 | ||
Identification and molecular characterization of ZAG1, the maize homolog of the Arabidopsis floral homeotic gene AGAMOUS. | Q36741798 | ||
Molecular analysis of male gametogenesis in plants | Q36883270 | ||
Regulation of Arabidopsis flower development | Q40800946 | ||
floricaula: a homeotic gene required for flower development in antirrhinum majus | Q43791437 | ||
Interaction of bride of sevenless membrane-bound ligand and the sevenless tyrosine-kinase receptor | Q44292632 | ||
Premature dissolution of the microsporocyte callose wall causes male sterility in transgenic tobacco | Q44599841 | ||
Determination and Cell Interactions in Reproductive Meristems | Q46729847 | ||
NTGLO: a tobacco homologue of the GLOBOSA floral homeotic gene of Antirrhinum majus: cDNA sequence and expression pattern. | Q48123215 | ||
Differential expression of two MADS box genes in wild-type and mutant petunia flowers | Q48164183 | ||
Molecular characterization of two stamen-specific genes, tap1 and fil1, that are expressed in the wild type, but not in the deficiens mutant of Antirrhinum majus | Q48213408 | ||
Multiple intercellular signalling systems control the development of the Caenorhabditis elegans vulva. | Q52236554 | ||
Expression of Engineered Nuclear Male Sterility in Brassica napus (Genetics, Morphology, Cytology, and Sensitivity to Temperature). | Q54242851 | ||
Genetic Control of Flower Development by Homeotic Genes in Antirrhinum majus. | Q55044428 | ||
Antisense inhibition of flavonoid biosynthesis in petunia anthers results in male sterility | Q68010052 | ||
Cell lineage ablation in transgenic mice by cell-specific expression of a toxin gene | Q69344366 | ||
EMS- and radiation-induced mutation frequencies at individual loci in Arabidopsis thaliana (L.) Heynh | Q70294119 | ||
Restoration of fertility by antisense RNA in genetically engineered male sterile tobacco plants | Q70683760 | ||
Regulation of structural gene expression in tobacco | Q71208572 | ||
The Metamorphosis of Flowers | Q77070844 | ||
Flower Development in Petunia | Q77070848 | ||
Nuclear Genes Controlling Male Fertility | Q77070875 | ||
Molecular Mechanisms of Pollen Tube Growth and Differentiation | Q77070880 | ||
Modifications of Mitochondrial DNA Cause Changes in Floral Development in Homeotic-like Mutants of Tobacco | Q77222166 | ||
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1217-1229 | |
P577 | publication date | 1993-10-01 | |
P1433 | published in | The Plant Cell | Q3988745 |
P1476 | title | Anther development: basic principles and practical applications | |
P478 | volume | 5 |
Q58803302 | "Programmed Cell Death: A Process of Death for Survival" - How Far Terminology Pertinent for Cell Death in Unicellular Organisms |
Q53712135 | A Domain in the bHLH Transcription Factor DYT1 Is Critical for Anther Development. |
Q48337430 | A Rice Ca2+ Binding Protein Is Required for Tapetum Function and Pollen Formation. |
Q82606593 | A cis regulatory element in the TAPNAC promoter directs tapetal gene expression |
Q51915690 | A comparative light and electron microscopic analysis of microspore and tapetum development in fertile and cytoplasmic male sterile radish. |
Q43857864 | A cotton gene encoding MYB-like transcription factor is specifically expressed in pollen and is involved in regulation of late anther/pollen development |
Q46604391 | A cystathionine-β-synthase domain-containing protein, CBSX2, regulates endothecial secondary cell wall thickening in anther development |
Q45337697 | A defensin from tomato with dual function in defense and development |
Q48041175 | A floral third whorl-specific marker gene in the dioecious species white campion is differentially expressed in mutants defective in stamen development |
Q43997245 | A lectin receptor-like kinase is required for pollen development in Arabidopsis |
Q42598359 | A modified method for preparing meiotic chromosomes based on digesting pollen mother cells in suspension |
Q48092508 | A novel application of periodic acid-Schiff (PAS) staining and fluorescence imaging for analysing tapetum and microspore development |
Q46047118 | A novel cell ablation strategy blocks tobacco anther dehiscence |
Q47617847 | A novel fatty Acyl-CoA Synthetase is required for pollen development and sporopollenin biosynthesis in Arabidopsis |
Q35740779 | A novel male sterility-fertility restoration system in plants for hybrid seed production |
Q47603255 | ABA and IAA control microsporogenesis in Petunia hybrida L. |
Q33359935 | ABCB1 and ABCB19 auxin transporters have synergistic effects on early and late Arabidopsis anther development |
Q34159710 | AMS-dependent and independent regulation of anther transcriptome and comparison with those affected by other Arabidopsis anther genes |
Q42938740 | Activation tagging of an Arabidopsis SHI-RELATED SEQUENCE gene produces abnormal anther dehiscence and floral development |
Q50553828 | An Arabidopsis F-box protein regulates tapetum degeneration and pollen maturation during anther development. |
Q34166726 | An Arabidopsis aspartic protease functions as an anti-cell-death component in reproduction and embryogenesis |
Q50633730 | An anther development F-box (ADF) protein regulated by tapetum degeneration retardation (TDR) controls rice anther development. |
Q41192169 | An atypical strictosidine synthase, OsSTRL2, plays key roles in anther development and pollen wall formation in rice |
Q51944422 | Analyses of advanced rice anther transcriptomes reveal global tapetum secretory functions and potential proteins for lipid exine formation. |
Q33351175 | Analysis of anther transcriptomes to identify genes contributing to meiosis and male gametophyte development in rice |
Q54475598 | Analysis of gene expression profile in pollen development of recessive genic male sterile Brassica napus L. line S45A. |
Q41667691 | Analysis of programmed cell death in wheat endosperm reveals differences in endosperm development between cereals |
Q82906993 | Anther-specific expression of mutated melon ethylene receptor gene Cm-ERS1/H70A affected tapetum degeneration and pollen grain production in transgenic tobacco plants |
Q43733210 | Antisense inhibition of a tomato meiotic proteinase suggests functional redundancy of proteinases during microsporogenesis |
Q74636837 | Apoptosis in developing anthers and the role of ABA in this process during androgenesis in Hordeum vulgare L |
Q46886485 | Arabidopsis MALE STERILITY1 encodes a PHD-type transcription factor and regulates pollen and tapetum development |
Q51764288 | Arabidopsis MYB26/MALE STERILE35 regulates secondary thickening in the endothecium and is essential for anther dehiscence. |
Q82588671 | AtMYB103 is a crucial regulator of several pathways affecting Arabidopsis anther development |
Q33886105 | AtPV42a and AtPV42b redundantly regulate reproductive development in Arabidopsis thaliana. |
Q33908891 | Auxin polar transport in stamen formation and development: how many actors? |
Q55236945 | Auxin production in diploid microsporocytes is necessary and sufficient for early stages of pollen development. |
Q44970852 | Auxin regulates Arabidopsis anther dehiscence, pollen maturation, and filament elongation |
Q42198590 | Basic helix-loop-helix transcription factor BcbHLHpol functions as a positive regulator of pollen development in non-heading Chinese cabbage |
Q87441614 | BcMF11, a novel non-coding RNA gene from Brassica campestris, is required for pollen development and male fertility |
Q48080583 | BcMF13, a new reproductive organ-specific gene from Brassica rapa. ssp. chinensis, affects pollen development |
Q36130958 | BcRISP1, isolated from non-heading Chinese cabbage, decreases the seed set of transgenic Arabidopsis |
Q40514897 | Being fruitful: genetics of reproduction in Arabidopsis |
Q37560844 | Biphasic regulation of the transcription factor ABORTED MICROSPORES (AMS) is essential for tapetum and pollen development in Arabidopsis. |
Q45396545 | BnaC.Tic40, a plastid inner membrane translocon originating from Brassica oleracea, is essential for tapetal function and microspore development in Brassica napus |
Q33778217 | Brassinosteroids control male fertility by regulating the expression of key genes involved in Arabidopsis anther and pollen development |
Q48124748 | Carbonic Anhydrases Function in Anther Cell Differentiation Downstream of the Receptor-Like Kinase EMS1. |
Q40397039 | Cell Death and Cell Cycle Arrest of Silene latifolia Stamens and Pistils After Microbotryum lychnidis-dioicae Infection. |
Q70812157 | Cell-specific ablation in plants |
Q57159165 | Cellular and molecular characteristics of pollen abortion in chrysanthemum cv. Kingfisher |
Q34007941 | Characterization of a caleosin expressed during olive (Olea europaea L.) pollen ontogeny. |
Q53614297 | Characterization of a pollen-preferential gene, BAN102, from Chinese cabbage. |
Q34374183 | Characterization of the Nrt2.6 gene in Arabidopsis thaliana: a link with plant response to biotic and abiotic stress |
Q51080289 | Cloning and expression analysis of a new anther-specific gene CaMF4 in Capsicum annuum. |
Q54456832 | Cloning and expression analysis of a pollen preferential rapid alkalinization factor gene, BoRALF1, from broccoli flowers. |
Q34363179 | Cold stress alters transcription in meiotic anthers of cold tolerant chickpea (Cicer arietinum L.). |
Q53290438 | Cold stress contributes to aberrant cytokinesis during male meiosis I in a wheat thermosensitive genic male sterile line |
Q38303906 | Comparative cytological and transcriptomic analysis of pollen development in autotetraploid and diploid rice |
Q46859487 | Comparative metabolomic analysis of wild type and mads3 mutant rice anthers. |
Q90429754 | Comparative transcript profiling and cytological observation of the newly bred recessive genic male sterility non-heading Chinese cabbage (Brassica rapa ssp. chinensis) line WS24-3A |
Q42776498 | Comparative transcript profiling of fertile and sterile flower buds from multiple-allele-inherited male sterility in Chinese cabbage (Brassica campestris L. ssp. pekinensis). |
Q35222924 | Comparative transcriptome analysis reveals carbohydrate and lipid metabolism blocks in Brassica napus L. male sterility induced by the chemical hybridization agent monosulfuron ester sodium |
Q64055378 | Complementary Transcriptomic and Proteomic Analysis Reveals a Complex Network Regulating Pollen Abortion in GMS () Pepper ( L.) |
Q90749858 | Comprehensive Insight into Gibberellin- and Jasmonate-Mediated Stamen Development |
Q34988320 | Comprehensive analysis of genic male sterility-related genes in Brassica rapa using a newly developed Br300K oligomeric chip |
Q33362291 | Comprehensive transcriptome analysis of phytohormone biosynthesis and signaling genes in microspore/pollen and tapetum of rice |
Q41609495 | Constituents of the tapetosomes and elaioplasts in Brassica campestris tapetum and their degradation and retention during microsporogenesis |
Q28553585 | Control of Anther Cell Differentiation by the Small Protein Ligand TPD1 and Its Receptor EMS1 in Arabidopsis |
Q37662348 | Control of anther cell differentiation: a teamwork of receptor-like kinases |
Q84434599 | Control of pollen-mediated gene flow in transgenic trees |
Q37104913 | Control of the meiotic cell division program in plants |
Q45264490 | Cotton GhCKI disrupts normal male reproduction by delaying tapetum programmed cell death via inactivating starch synthase. |
Q46306183 | Cytological and Transcriptomic Analyses Reveal Important Roles of CLE19 in Pollen Exine Formation. |
Q28535121 | Cytological and comparative proteomic analyses on male sterility in Brassica napus L. induced by the chemical hybridization agent monosulphuron ester sodium |
Q91862805 | Cytological and transcriptome analyses reveal OsPUB73 defect affects the gene expression associated with tapetum or pollen exine abnormality in rice |
Q51507393 | DYT1 directly regulates the expression of TDF1 for tapetum development and pollen wall formation in Arabidopsis. |
Q46658237 | Decreased sorbitol synthesis leads to abnormal stamen development and reduced pollen tube growth via an MYB transcription factor, MdMYB39L, in apple (Malus domestica). |
Q28741141 | Defective pollen wall is required for anther and microspore development in rice and encodes a fatty acyl carrier protein reductase |
Q34570749 | Detection of chromosomal rearrangements derived from homologous recombination in four mapping populations of Brassica napus L. |
Q91928868 | Discovering and Constructing ceRNA-miRNA-Target Gene Regulatory Networks during Anther Development in Maize |
Q35610288 | Dissection of jasmonate functions in tomato stamen development by transcriptome and metabolome analyses |
Q33899429 | Distinct and dynamic auxin activities during reproductive development |
Q43050691 | Distinct regulation of adaxial-abaxial polarity in anther patterning in rice. |
Q47095244 | Down-Regulation of OsEMF2b Caused Semi-sterility Due to Anther and Pollen Development Defects in Rice |
Q39558727 | Drought, pollen and nectar availability, and pollination success |
Q50062541 | EAT1 transcription factor, a non-cell-autonomous regulator of pollen production, activates meiotic small RNA biogenesis in rice anther tapetum |
Q90100552 | EMS1 and BRI1 control separate biological processes via extracellular domain diversity and intracellular domain conservation |
Q33254302 | EST database for early flower development in California poppy (Eschscholzia californica Cham., Papaveraceae) tags over 6,000 genes from a basal eudicot |
Q42772541 | Ectopic expression of TAPETUM DETERMINANT1 affects ovule development in Arabidopsis |
Q46072193 | Ectopic expression of mitochondrial gamma carbonic anhydrase 2 causes male sterility by anther indehiscence |
Q92570066 | Effects of Jasmonate on Ethylene Function during the Development of Tomato Stamens |
Q34510015 | Emergence and patterning of the five cell types of the Zea mays anther locule |
Q36833832 | Ensuring Reproduction at High Temperatures: The Heat Stress Response during Anther and Pollen Development. |
Q46601973 | Epidermal jasmonate perception is sufficient for all aspects of jasmonate-mediated male fertility in Arabidopsis |
Q43521527 | Epigenetic changes accompany developmental programmed cell death in tapetum cells. |
Q38660068 | Epigenetic events in plant male germ cell heat stress responses. |
Q37142129 | Epigenetic reprogramming and small RNA silencing of transposable elements in pollen |
Q93604960 | Evolution of meiosis timing during floral development |
Q33782432 | Expression of a cotton MADS-box gene is regulated in anther development and in response to phytohormone signaling |
Q42688863 | Expression of an anther-specific chalcone synthase-like gene is correlated with uninucleate microspore development in Nicotiana sylvestris. |
Q47976274 | Expression of cysteine proteinase during developmental events associated with programmed cell death in brinjal. |
Q97883620 | Failure of Pollen Attachment to the Stigma Triggers Elongation of Stigmatic Papillae in Arabidopsis thaliana |
Q51366103 | Fertility in barley flowers depends on Jekyll functions in male and female sporophytes. |
Q48186295 | Fine mapping of the genic male-sterile ms 1 gene in Capsicum annuum L. |
Q47155013 | Fine regulation of ARF17 for anther development and pollen formation |
Q48230582 | Floral Metabolism of Sugars and Amino Acids: Implications for Pollinators' Preferences and Seed and Fruit Set. |
Q28740986 | Flower development |
Q41456267 | FlowerNet: a gene expression correlation network for anther and pollen development |
Q37647532 | Function Identification of the Nucleotides in Key cis-Element of DYSFUNCTIONAL TAPETUM1 (DYT1) Promoter |
Q61806429 | Functional Characterization of microRNA171 Family in Tomato |
Q46415752 | Functional conservation and maintenance of expression pattern of FIDDLEHEAD-like genes in Arabidopsis and Antirrhinum |
Q41658835 | Functional interactions among cytoskeleton, membranes, and cell wall in the pollen tube of flowering plants |
Q35545374 | Garlic (Allium sativum L.) fertility: transcriptome and proteome analyses provide insight into flower and pollen development |
Q41684655 | Gene Regulatory Network for Tapetum Development in Arabidopsis thaliana |
Q42482008 | Gene trap lines define domains of gene regulation in Arabidopsis petals and stamens |
Q36756504 | Gene, protein, and network of male sterility in rice |
Q52172579 | Genes expressed in Pinus radiata male cones include homologs to anther-specific and pathogenesis response genes. |
Q58477210 | Genetic, quantitative and microscopic evidence for fusion of haploid nuclei and growth of somatic calli in cultured ms10 35 tomato anthers |
Q26827103 | Gibberellic acid in plant: still a mystery unresolved |
Q37407564 | Gibberellin as a factor in floral regulatory networks. |
Q52118241 | Gibberellin regulates post-microsporogenesis processes in petunia anthers. |
Q36006786 | Global Dynamic Transcriptome Programming of Rapeseed (Brassica napus L.) Anther at Different Development Stages |
Q51971262 | Global analysis of gene expression in flower buds of Ms-cd1 Brassica oleracea conferring male sterility by using an Arabidopsis microarray. |
Q46224825 | Global expression profiling applied to the analysis of Arabidopsis stamen development. |
Q52110536 | Global identification of target genes regulated by APETALA3 and PISTILLATA floral homeotic gene action. |
Q51194006 | Glycerol-3-Phosphate Acyltransferase 3 (OsGPAT3) is required for anther development and male fertility in rice. |
Q50727361 | Glyphosate-induced anther indehiscence in cotton is partially temperature dependent and involves cytoskeleton and secondary wall modifications and auxin accumulation. |
Q37069232 | HYL1 is required for establishment of stamen architecture with four microsporangia in Arabidopsis |
Q53596402 | Heterodimer Formation of BnPKSA or BnPKSB with BnACOS5 Constitutes a Multienzyme Complex in Tapetal Cells and is Involved in Male Reproductive Development in Brassica napus. |
Q80167666 | High-resolution fine mapping of ps-2, a mutated gene conferring functional male sterility in tomato due to non-dehiscent anthers |
Q42276064 | Hypoxia triggers meiotic fate acquisition in maize |
Q57030874 | INDUCER OF CBF EXPRESSION 1 is a male fertility regulator impacting anther dehydration in Arabidopsis |
Q51701962 | IRE1, a component of the unfolded protein response signaling pathway, protects pollen development in Arabidopsis from heat stress. |
Q39042117 | IRREGULAR POLLEN EXINE1 Is a Novel Factor in Anther Cuticle and Pollen Exine Formation. |
Q90383285 | Identification of Anther Length QTL and Construction of Chromosome Segment Substitution Lines of Oryza longistaminata |
Q33267391 | Identification of microspore-active promoters that allow targeted manipulation of gene expression at early stages of microgametogenesis in Arabidopsis |
Q35100174 | Identification of novel and conserved miRNAs involved in pollen development in Brassica campestris ssp. chinensis by high-throughput sequencing and degradome analysis |
Q35225988 | Identification of tapetum-specific genes by comparing global gene expression of four different male sterile lines in Brassica oleracea |
Q47755117 | Identification, sequence analysis and expression studies of novel anther-specific genes of Arabidopsis thaliana |
Q98613006 | In planta particle bombardment (iPB): A new method for plant transformation and genome editing |
Q35952676 | Induction of male sterility in plants by metabolic engineering of the carbohydrate supply |
Q41763372 | Inhibition of chalcone synthase expression in anthers of Raphanus sativus with Ogura male sterile cytoplasm |
Q42419089 | Isolation and characterization of CaMF3, an anther-specific gene in Capsicum annuum L. |
Q48079347 | Isolation and characterization of a male sterility gene homolog BcMS2 from Chinese cabbage-pak-choi that expressing in an anther-specific manner |
Q36813528 | Isolation and characterization of a microspore-specific gene from tobacco |
Q51012727 | Isolation and characterization of a novel pollen-specific promoter in maize (Zea mays L.). |
Q30655486 | Isolation and characterization of an anther-specific gene, RA8, from rice (Oryza sativa L.). |
Q38731320 | It is a matter of timing: asynchrony during pollen development and its consequences on pollen performance in angiosperms-a review. |
Q52172677 | Linker histones play a role in male meiosis and the development of pollen grains in tobacco. |
Q47137453 | MALE STERILE6021 (MS6021) is required for the development of anther cuticle and pollen exine in maize |
Q46886486 | MALE STERILITY1 is required for tapetal development and pollen wall biosynthesis |
Q46192873 | MYB108 acts together with MYB24 to regulate jasmonate-mediated stamen maturation in Arabidopsis |
Q42596637 | Maize csmd1 exhibits pre-meiotic somatic and post-meiotic microspore and somatic defects but sustains anther growth |
Q33357453 | Maize germinal cell initials accommodate hypoxia and precociously express meiotic genes |
Q34117419 | Male fertility: a case of enzyme identity |
Q44025569 | Male gametophyte development in bread wheat (Triticum aestivum L.): molecular, cellular, and biochemical analyses of a sporophytic contribution to pollen wall ontogeny |
Q59336136 | MeioCapture: an efficient method for staging and isolation of meiocytes in the prophase I sub-stages of meiosis in wheat |
Q46699645 | Microarray analysis of gene expression involved in anther development in rice (Oryza sativa L.). |
Q58832983 | Microsporogenesis and pollen formation in cassava |
Q58105120 | Mitochondria-Nuclear Interaction in Male Sterility and Heterosis for Productivity Enhancement in Crop Plants |
Q36589997 | Mitochondrial cytochrome c oxidase and F1Fo-ATPase dysfunction in peppers (Capsicum annuum L.) with cytoplasmic male sterility and its association with orf507 and Ψatp6-2 genes |
Q51141960 | Molecular analysis of early rice stamen development using organ-specific gene expression profiling. |
Q36716148 | Molecular characterization of rice genes specifically expressed in the anther tapetum |
Q36808864 | Molecular characterization of the CER1 gene of arabidopsis involved in epicuticular wax biosynthesis and pollen fertility |
Q42610273 | Molecular cloning and characterization of a novel pollen predominantly membrane protein gene BcMF12 from Brassica campestris ssp. chinensis |
Q36239366 | Morphological Characterization of a New and Easily Recognizable Nuclear Male Sterile Mutant of Sorghum (Sorghum bicolor). |
Q50483359 | Morphological and physiological differences between dehiscent and indehiscent anthers of Chrysanthemum morifolium. |
Q79151627 | Morphological development of anthers induced by the dimorphic smut fungus Microbotryum violaceum in female flowers of the dioecious plant Silene latifolia |
Q36076362 | Multiple roles for small RNAs during plant reproduction. |
Q36122482 | N(2)O induces mitotic polyploidization in anther somatic cells and restores fertility in sterile interspecific hybrid lilies |
Q35671258 | New players unveiled in early anther development |
Q34331433 | New views of tapetum ultrastructure and pollen exine development in Arabidopsis thaliana. |
Q43107634 | On the nature and origin of the oxalate package in Solanum sisymbriifolium anthers |
Q85511469 | One novel cis-element is essential for correct DYSFUNCTIONAL TAPETUM 1 (DYT1) expression in Arabidopsis thaliana |
Q59159183 | Orbicules in Flowering Plants: A Phylogenetic Perspective on their Form and Function |
Q60958581 | OsGPAT3 Plays a Critical Role in Anther Wall Programmed Cell Death and Pollen Development in Rice |
Q51515472 | Overexpression of phytosulfokine-α induces male sterility and cell growth by regulating cell wall development in Arabidopsis. |
Q50667176 | PECTATE LYASE-LIKE10 is associated with pollen wall development in Brassica campestris. |
Q48058679 | PERSISTENT TAPETAL CELL1 encodes a PHD-finger protein that is required for tapetal cell death and pollen development in rice |
Q36094439 | Parthenocarpic fruit development in tomato |
Q48225899 | Phosphorylation of SPOROCYTELESS/NOZZLE by the MPK3/6 Kinase Is Required for Anther Development. |
Q34663936 | Phosphorylation of tobacco eukaryotic translation initiation factor 4A upon pollen tube germination |
Q48183542 | Pollen Development at High Temperature: From Acclimation to Collapse. |
Q36797243 | Pollen wall development in flowering plants |
Q38068524 | Pollen wall development: the associated enzymes and metabolic pathways |
Q54402661 | Pollen-Specific Expression of Oryza sativa Indica Pollen Allergen Gene (OSIPA) Promoter in Rice and Arabidopsis Transgenic Systems |
Q51886732 | Polyploidization mechanisms: temperature environment can induce diploid gamete formation in Rosa sp. |
Q34152257 | Programmed cell death in plant reproduction |
Q37106172 | Programmed cell death promotes male sterility in the functional dioecious Opuntia stenopetala (Cactaceae) |
Q37225199 | Programmed cell death: a way of life for plants |
Q28481658 | Proteome analysis of the wild and YX-1 male sterile mutant anthers of wolfberry (Lycium barbarum L.) |
Q35030133 | Proteomic analysis of anthers from wild-type and photosensitive genetic male sterile mutant cotton (Gossypium hirsutum L.). |
Q92309659 | Proteomic analysis reveals that sugar and fatty acid metabolisms play a central role in sterility of the male-sterile line 1355A of cotton |
Q83970004 | Quantitative trait analysis of seed yield and other complex traits in hybrid spring rapeseed (Brassica napus L.): 1. Identification of genomic regions from winter germplasm |
Q51923158 | RA68 is required for postmeiotic pollen development in Oryza sativa. |
Q89581557 | RMS2 encoding a GDSL lipase mediates lipid homeostasis in anthers to determine rice male fertility |
Q50897448 | RNAi-mediated male sterility of tobacco by silencing TA29. |
Q33253384 | RTS, a rice anther-specific gene is required for male fertility and its promoter sequence directs tissue-specific gene expression in different plant species. |
Q64069847 | Rapid functional divergence after small-scale gene duplication in grasses |
Q33587399 | Reactive oxygen species mediate tapetal programmed cell death in tobacco and tomato |
Q46585830 | Rice APOPTOSIS INHIBITOR5 coupled with two DEAD-box adenosine 5'-triphosphate-dependent RNA helicases regulates tapetum degeneration |
Q48123076 | Rice Undeveloped Tapetum1 is a major regulator of early tapetum development |
Q47222490 | Rice fatty acyl-CoA synthetase OsACOS12 is required for tapetum programmed cell death and male fertility |
Q36014038 | Rice plant development: from zygote to spikelet |
Q44511129 | Ricinosomes predict programmed cell death leading to anther dehiscence in tomato |
Q34075723 | Role of programmed cell death in development |
Q50329497 | SHI/STY Genes Affect Pre- and Post-meiotic Anther Processes in Auxin Sensing Domains in Arabidopsis |
Q52107209 | SPL8, an SBP-box gene that affects pollen sac development in Arabidopsis. |
Q57809524 | Salicylic acid reverses pollen abortion of rice caused by heat stress |
Q48332730 | Selection and orientation of adjacent genes influences DAM-mediated male sterility in transformed maize |
Q33364670 | Separated transcriptomes of male gametophyte and tapetum in rice: validity of a laser microdissection (LM) microarray. |
Q37736484 | Sexually-trimorphic interactions with colour polymorphism determine nectar quality in a herbaceous perennial |
Q37811252 | Signaling and Transcriptional Control of Reproductive Development in Arabidopsis |
Q36883178 | Signaling of cell fate determination by the TPD1 small protein and EMS1 receptor kinase |
Q44170721 | Silencing of the tapetum-specific zinc finger gene TAZ1 causes premature degeneration of tapetum and pollen abortion in petunia |
Q94502012 | SmCOI1 affects anther dehiscence in a male-sterile Solanum melongena line |
Q38038977 | Small signaling peptides in Arabidopsis development: how cells communicate over a short distance |
Q46682954 | Spatial and temporal activity of upstream regulatory regions of rice anther-specific genes in transgenic rice and Arabidopsis |
Q38365046 | Stamen development and winter dormancy in apricot (Prunus armeniaca). |
Q80060200 | Stamen structure and function |
Q41674635 | Steryl esters in the elaioplasts of the tapetum in developing Brassica anthers and their recovery on the pollen surface. |
Q43477557 | Sugar and auxin signaling pathways respond to high-temperature stress during anther development as revealed by transcript profiling analysis in cotton. |
Q35774927 | TCP24 modulates secondary cell wall thickening and anther endothecium development |
Q37143421 | Tandem oleosin genes in a cluster acquired in Brassicaceae created tapetosomes and conferred additive benefit of pollen vigor |
Q24669602 | Tapetosomes in Brassica tapetum accumulate endoplasmic reticulum-derived flavonoids and alkanes for delivery to the pollen surface |
Q47387037 | Tapetum determinant1 is required for cell specialization in the Arabidopsis anther |
Q38113701 | Tapetum: regulation and role in sporopollenin biosynthesis in Arabidopsis |
Q43179427 | The ABORTED MICROSPORES regulatory network is required for postmeiotic male reproductive development in Arabidopsis thaliana |
Q38339021 | The ANTHER INDEHISCENCE1 gene encoding a single MYB domain protein is involved in anther development in rice |
Q55267381 | The Aborted Microspores (AMS)-Like Gene Is Required for Anther and Microspore Development in Pepper (Capsicum annuum L.). |
Q42663256 | The Arabidopsis MALE STERILITY1 (MS1) gene is a transcriptional regulator of male gametogenesis, with homology to the PHD-finger family of transcription factors. |
Q28145405 | The Arabidopsis male-sterile mutant, opr3, lacks the 12-oxophytodienoic acid reductase required for jasmonate synthesis |
Q48112990 | The Arabidopsis thaliana SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASES1 and 2 control male sporogenesis |
Q37097010 | The AtXTH28 gene, a xyloglucan endotransglucosylase/hydrolase, is involved in automatic self-pollination in Arabidopsis thaliana |
Q33342722 | The BAM1/BAM2 receptor-like kinases are important regulators of Arabidopsis early anther development |
Q28361274 | The DEFECTIVE IN ANTHER DEHISCIENCE gene encodes a novel phospholipase A1 catalyzing the initial step of jasmonic acid biosynthesis, which synchronizes pollen maturation, anther dehiscence, and flower opening in Arabidopsis |
Q35717831 | The DYT1-interacting proteins bHLH010, bHLH089 and bHLH091 are redundantly required for Arabidopsis anther development and transcriptome |
Q58052976 | The Genetics, Pathology, and Molecular Biology of T-Cytoplasm Male Sterility in Maize |
Q47998380 | The MADS box transcription factor ZmMADS2 is required for anther and pollen maturation in maize and accumulates in apoptotic bodies during anther dehiscence |
Q48234178 | The MSP1 gene is necessary to restrict the number of cells entering into male and female sporogenesis and to initiate anther wall formation in rice |
Q37524641 | The NAC-like gene ANTHER INDEHISCENCE FACTOR acts as a repressor that controls anther dehiscence by regulating genes in the jasmonate biosynthesis pathway in Arabidopsis |
Q52047296 | The Oryza sativa no pollen (Osnop) gene plays a role in male gametophyte development and most likely encodes a C2-GRAM domain-containing protein. |
Q24543580 | The PET1-CMS mitochondrial mutation in sunflower is associated with premature programmed cell death and cytochrome c release |
Q33532890 | The Post-meiotic Deficicent Anther1 (PDA1) gene is required for post-meiotic anther development in rice. |
Q51124898 | The PsEND1 promoter: a novel tool to produce genetically engineered male-sterile plants by early anther ablation. |
Q51927033 | The SPOROCYTELESS/NOZZLE gene is involved in controlling stamen identity in Arabidopsis. |
Q50535049 | The VviMYB80 Gene is Abnormally Expressed in Vitis vinifera L. cv. 'Zhong Shan Hong' and its Expression in Tobacco Driven by the 35S Promoter Causes Male Sterility. |
Q41748309 | The arabidopsis DELAYED DEHISCENCE1 gene encodes an enzyme in the jasmonic acid synthesis pathway |
Q30363231 | The bHLH142 Transcription Factor Coordinates with TDR1 to Modulate the Expression of EAT1 and Regulate Pollen Development in Rice. |
Q24630425 | The classical Ubisch bodies carry a sporophytically produced structural protein (RAFTIN) that is essential for pollen development |
Q35779838 | The excess microsporocytes1 gene encodes a putative leucine-rich repeat receptor protein kinase that controls somatic and reproductive cell fates in the Arabidopsis anther |
Q33334125 | The gene encoding tobacco gibberellin 3beta-hydroxylase is expressed at the site of GA action during stem elongation and flower organ development. |
Q34795263 | The impact of environmental stress on male reproductive development in plants: biological processes and molecular mechanisms |
Q34607839 | The mac1 mutation alters the developmental fate of the hypodermal cells and their cellular progeny in the maize anther. |
Q43829560 | The maize tapetum employs diverse mechanisms to synthesize and store proteins and flavonoids and transfer them to the pollen surface |
Q34283099 | The male sterile 8 mutation of maize disrupts the temporal progression of the transcriptome and results in the mis-regulation of metabolic functions. |
Q47280558 | The pea END1 promoter drives anther-specific gene expression in different plant species. |
Q41682771 | The predominant protein on the surface of maize pollen is an endoxylanase synthesized by a tapetum mRNA with a long 5' leader |
Q54115034 | The receptor-like kinase AtVRLK1 regulates secondary cell wall thickening. |
Q48083174 | The rice tapetum degeneration retardation gene is required for tapetum degradation and anther development |
Q38945501 | The role of Arabidopsis ABCG9 and ABCG31 ATP binding cassette transporters in pollen fitness and the deposition of steryl glycosides on the pollen coat. |
Q44496820 | The role of Somatic embryogenesis receptor-like kinase 1 in controlling pollen production of the Gossypium anther |
Q39796654 | The transcriptome landscape of Arabidopsis male meiocytes from high-throughput sequencing: the complexity and evolution of the meiotic process |
Q33654488 | The transcriptome landscape of early maize meiosis |
Q34580704 | Tomato Male sterile 1035 is essential for pollen development and meiosis in anthers |
Q84464881 | Transcript profiling provides evidence of functional divergence and expression networks among ribosomal protein gene paralogs in Brassica napus |
Q47381482 | Transcription Factor OsTGA10 Is a Target of the MADS Protein OsMADS8 and Is Required for Tapetum Development. |
Q36274163 | Transcriptional regulation of male-sterility in 7B-1 male-sterile tomato mutant. |
Q36259281 | Transcriptome Analysis of Hamelia patens (Rubiaceae) Anthers Reveals Candidate Genes for Tapetum and Pollen Wall Development |
Q50930133 | Transcriptome analysis of cytoplasmic male sterility and restoration in CMS-D8 cotton. |
Q34479347 | Transcriptome profiling analysis reveals that flavonoid and ascorbate-glutathione cycle are important during anther development in Upland cotton |
Q36267519 | Transcriptome profiling of differentially expressed genes in floral buds and flowers of male sterile and fertile lines in watermelon |
Q90679727 | Transcriptome, cytological and biochemical analysis of cytoplasmic male sterility and maintainer line in CMS-D8 cotton |
Q33785029 | Transcriptomes and proteomes define gene expression progression in pre-meiotic maize anthers. |
Q33956720 | Transcriptomes of the anther sporophyte: availability and uses |
Q34583088 | Transcriptomic analysis of differentially expressed genes during anther development in genetic male sterile and wild type cotton by digital gene-expression profiling |
Q46561445 | Transformation by T-DNA integration causes highly sterile phenotype independent of transgenes in Arabidopsis thaliana |
Q39128587 | Two SERK Receptor-Like Kinases Interact with EMS1 to Control Anther Cell Fate Determination. |
Q52165921 | Two male-sterile mutants of Zea Mays (Poaceae) with an extra cell division in the anther wall. |
Q36086490 | Ultrastructural aspects of pollen ontogeny in an endangered plant species, Pancratium maritimum L. (Amaryllidaceae). |
Q100714966 | Understanding male sterility in Miconia species (Melastomataceae): a morphological approach |
Q42638525 | Upregulation of the AT-hook DNA binding gene BoMF2 in OguCMS anthers of Brassica oleracea suggests that it encodes a transcriptional regulatory factor for anther development |
Q31146206 | Use of serial analysis of gene expression technology to reveal changes in gene expression in Arabidopsis pollen undergoing cold stress |
Q33367485 | Various spatiotemporal expression profiles of anther-expressed genes in rice. |
Q36944388 | Workable male sterility systems for hybrid rice: Genetics, biochemistry, molecular biology, and utilization |
Q33332663 | Zm401, a short-open reading-frame mRNA or noncoding RNA, is essential for tapetum and microspore development and can regulate the floret formation in maize |
Q37682130 | bHLH142 regulates various metabolic pathway-related genes to affect pollen development and anther dehiscence in rice. |
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