AtATM is essential for meiosis and the somatic response to DNA damage in plants.
about
Serpin genes AtSRP2 and AtSRP3 are required for normal growth sensitivity to a DNA alkylating agent in ArabidopsisThe Arabidopsis homologue of Xrcc3 plays an essential role in meiosisMRE11 and RAD50, but not NBS1, are essential for gene targeting in the moss Physcomitrella patensDNA damage and repair in plants - from models to cropsDNA repair mechanisms in plants: crucial sensors and effectors for the maintenance of genome integrityIdentification of genomic regions involved in tolerance to drought stress and drought stress induced leaf senescence in juvenile barley.Responses to telomere erosion in plants.Microbial pathogens trigger host DNA double-strand breaks whose abundance is reduced by plant defense responses.The Arabidopsis MEI1 gene encodes a protein with five BRCT domains that is involved in meiosis-specific DNA repair events independent of SPO11-induced DSBs.ATM-mediated transcriptional and developmental responses to gamma-rays in ArabidopsisThe role of AtMUS81 in interference-insensitive crossovers in A. thalianaBRU1, a novel link between responses to DNA damage and epigenetic gene silencing in Arabidopsis.Arabidopsis TEBICHI, with helicase and DNA polymerase domains, is required for regulated cell division and differentiation in meristems.Suppressor of gamma response 1 (SOG1) encodes a putative transcription factor governing multiple responses to DNA damage.A link among DNA replication, recombination, and gene expression revealed by genetic and genomic analysis of TEBICHI gene of Arabidopsis thaliana.Hypersensitivity to DNA damage in plant stem cell nichesUV-B-induced DNA damage mediates expression changes of cell cycle regulatory genes in Arabidopsis root tips.GMI1, a structural-maintenance-of-chromosomes-hinge domain-containing protein, is involved in somatic homologous recombination in Arabidopsis.The Arabidopsis thaliana checkpoint kinase WEE1 protects against premature vascular differentiation during replication stress.The Arabidopsis MERISTEM DISORGANIZATION 1 gene is required for the maintenance of stem cells through the reduction of DNA damage.Condensin II alleviates DNA damage and is essential for tolerance of boron overload stress in Arabidopsis.The ATM-dependent DNA damage response acts as an upstream trigger for compensation in the fas1 mutation during Arabidopsis leaf development.DNA double-strand breaks induce the expression of flavin-containing monooxygenase and reduce root meristem size in Arabidopsis thaliana.The heterodimeric transcription factor complex ERF115-PAT1 grants regeneration competence.RUG3 and ATM synergistically regulate the alternative splicing of mitochondrial nad2 and the DNA damage response in Arabidopsis thaliana.Replication protein A (RPA1a) is required for meiotic and somatic DNA repair but is dispensable for DNA replication and homologous recombination in rice.The retinoblastoma homolog RBR1 mediates localization of the repair protein RAD51 to DNA lesions in ArabidopsisGenomic stability in response to high versus low linear energy transfer radiation in Arabidopsis thaliana.High-resolution melting curve analysis for rapid detection of mutations in a Medaka TILLING library.Ionizing radiation-dependent gamma-H2AX focus formation requires ataxia telangiectasia mutated and ataxia telangiectasia mutated and Rad3-related.DNA damage during G2 phase does not affect cell cycle progression of the green alga Scenedesmus quadricaudaHigh atomic weight, high-energy radiation (HZE) induces transcriptional responses shared with conventional stresses in addition to a core "DSB" response specific to clastogenic treatments.ATM and ATR make distinct contributions to chromosome end protection and the maintenance of telomeric DNA in ArabidopsisA novel ATM-dependent X-ray-inducible gene is essential for both plant meiosis and gametogenesisDNA damage checkpoint kinase ATM regulates germination and maintains genome stability in seeds.Evidence for distinct functions of MRE11 in Arabidopsis meiosis.Programmed induction of endoreduplication by DNA double-strand breaks in Arabidopsis.Genetic analysis of the Replication Protein A large subunit family in Arabidopsis reveals unique and overlapping roles in DNA repair, meiosis and DNA replication.Analysis of poly(ADP-Ribose) polymerases in Arabidopsis telomere biology.Quantitative phosphoproteomics of the ataxia telangiectasia-mutated (ATM) and ataxia telangiectasia-mutated and rad3-related (ATR) dependent DNA damage response in Arabidopsis thaliana.
P2860
Q21261961-26827BF8-B304-45DA-BD2D-B886AB24D9D5Q24535915-2C786B26-D59D-4884-974D-98342BD89F97Q24633971-DA975C82-2C30-4115-BF5C-17949D2978CEQ26777937-B2CD26BD-B369-45B9-9296-19AFAE3B807AQ28284004-896FC7C4-CFB1-4A12-9CC6-31540913AE86Q30316537-E64AD4F7-D817-4F60-8911-E47D0CED7EC8Q30444107-FC179A4F-5D8A-45D7-AC4B-165040B09CF0Q31156407-29FDCB79-CE25-409A-BCCB-9DA528FE5B0CQ33188042-68E37766-B4FA-449D-A850-888764377D8FQ33283998-56C9C954-AA2E-4D02-8C15-F965BAF527D8Q33294063-FDB883DE-0E4E-418F-99B8-65C4AF369769Q33339924-6368DBAB-78C1-4E9F-A2E9-8659C1C10FDBQ33342169-040FDC26-DE70-463E-A89A-1D413B250851Q33347320-8713B058-3E6A-4F0A-8F82-F18CEF650798Q33347642-507F86A1-6326-474F-A322-D13995B7CE00Q33348230-FA9670AD-384D-463B-97D5-7AF7AC7F6362Q33350423-F14DFD29-DE50-47A9-BAAF-5384294B7310Q33350950-73634FDE-D36D-4793-9226-110E803359F0Q33351001-890A175D-896E-4AF5-B4A8-DC1619723BEBQ33351829-B05C61B8-9879-46A7-B476-D2D0C2CC36CDQ33352125-5792FA92-74EA-4442-8E62-DDD153F80FFAQ33355733-B8518668-2AB6-41B5-8F85-AB59BDA23F00Q33360831-753F6327-E384-45B4-B175-B54988B63D77Q33364183-B1A10FC7-06F0-4115-BE91-915F2FD8C09DQ33364925-CD840242-1E50-4596-ACB5-CC33FE233B85Q33509264-8831BB3A-F0F3-43E9-9592-10FAD83FA7C5Q33625770-71E7BD5A-A968-45A2-918B-A067C29BDEC8Q33659671-39A62980-9899-4DE3-8D0C-2BF6A95A5C35Q33692500-6F69ECD1-2B62-429F-A83F-99676F605575Q33768588-CD748193-3F49-47D1-BD00-9B9B2B727BD2Q33908422-BB82D9A2-AE9F-4DE8-8EA6-ACFCB4037C6BQ33984747-4E56C66D-BE49-4450-BF93-6CA56124F3D1Q34009139-3E9945CB-EA84-4700-A933-4AFFBDD4FBA4Q34086616-43790D97-DD04-4433-B97C-E03EE7F89CC9Q34536806-EDA77739-0E5C-490B-8E58-1A99B9DC9D9CQ35036693-E19EA7B8-B5D2-4E77-B480-2AEC367F5063Q35049063-CAE8605C-61EB-48F1-BBA0-C1DFB3E64651Q35066354-8FA967A7-09CA-492F-B21B-719FB57D421DQ35097621-0B59B3CA-080F-4308-AD43-594438F7E474Q35148365-4EF161D9-B645-45A0-A909-19A33F8BD320
P2860
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh
2003年學術文章
@zh-hant
name
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
@en
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
@nl
type
label
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
@en
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
@nl
prefLabel
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
@en
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
@nl
P2093
P2860
P356
P1433
P1476
AtATM is essential for meiosis and the somatic response to DNA damage in plants.
@en
P2093
Delphine Camescasse
Fabienne Granier
Hugues Bruchet
Valérie Garcia
P2860
P304
P356
10.1105/TPC.006577
P577
2003-01-01T00:00:00Z