C. elegans mre-11 is required for meiotic recombination and DNA repair but is dispensable for the meiotic G(2) DNA damage checkpoint
about
Temporal analysis of meiotic DNA double-strand break formation and repair in Drosophila femalesMeiotic development in Caenorhabditis elegansA new thermosensitive smc-3 allele reveals involvement of cohesin in homologous recombination in C. elegansIdentification of DSB-1, a protein required for initiation of meiotic recombination in Caenorhabditis elegans, illuminates a crossover assurance checkpointCOM-1 promotes homologous recombination during Caenorhabditis elegans meiosis by antagonizing Ku-mediated non-homologous end joiningBisphenol A impairs the double-strand break repair machinery in the germline and causes chromosome abnormalities.ZIP4H (TEX11) deficiency in the mouse impairs meiotic double strand break repair and the regulation of crossing overC. elegans germ cells switch between distinct modes of double-strand break repair during meiotic prophase progressionMre11-Rad50-Nbs complex is required to cap telomeres during Drosophila embryogenesis.Distinct modes of ATR activation after replication stress and DNA double-strand breaks in Caenorhabditis elegans.CRA-1 uncovers a double-strand break-dependent pathway promoting the assembly of central region proteins on chromosome axes during C. elegans meiosis.Structural maintenance of chromosomes (SMC) proteins promote homolog-independent recombination repair in meiosis crucial for germ cell genomic stability.Cancer models in Caenorhabditis elegans.Evolutionary conservation of meiotic DSB proteins: more than just Spo11A C. elegans eIF4E-family member upregulates translation at elevated temperatures of mRNAs encoding MSH-5 and other meiotic crossover proteins.MRE11 is required for homologous synapsis and DSB processing in rice meiosis.DNA double-strand break repair in Caenorhabditis elegansRoles for Caenorhabditis elegans rad-51 in meiosis and in resistance to ionizing radiation during development.A targeted RNAi screen for genes involved in chromosome morphogenesis and nuclear organization in the Caenorhabditis elegans germlineA conserved pathway to activate BRCA1-dependent ubiquitylation at DNA damage sites.Developmental modulation of nonhomologous end joining in Caenorhabditis elegans.Mechanism and regulation of meiotic recombination initiation.The C. elegans DSB-2 protein reveals a regulatory network that controls competence for meiotic DSB formation and promotes crossover assurance.Nuclear reorganization and homologous chromosome pairing during meiotic prophase require C. elegans chk-2.NER and HR pathways act sequentially to promote UV-C-induced germ cell apoptosis in Caenorhabditis elegansSpo11 and the Formation of DNA Double-Strand Breaks in Meiosis.Targeting Homologous Recombination in Notch-Driven C. elegans Stem Cell and Human Tumors.A role for Caenorhabditis elegans chromatin-associated protein HIM-17 in the proliferation vs. meiotic entry decisionSynapsis-dependent and -independent mechanisms stabilize homolog pairing during meiotic prophase in C. elegans.A conserved function for a Caenorhabditis elegans Com1/Sae2/CtIP protein homolog in meiotic recombination.Differential regulation of DNA damage response activation between somatic and germline cells in Caenorhabditis elegans.Multiple functions and dynamic activation of MPK-1 extracellular signal-regulated kinase signaling in Caenorhabditis elegans germline development.Chromosome pairing and synapsis during Caenorhabditis elegans meiosis.Impaired resection of meiotic double-strand breaks channels repair to nonhomologous end joining in Caenorhabditis elegans.Telomere capping in Drosophila: dealing with chromosome ends that most resemble DNA breaks.Meiotic recombination and the crossover assurance checkpoint in Caenorhabditis elegans.Caenorhabditis elegans as a powerful alternative model organism to promote research in genetic toxicology and biomedicine.DNA Strand Breaks in Mitotic Germ Cells of Caenorhabditis elegans Evaluated by Comet Assay.Caenorhabditis elegans ABL-1 antagonizes p53-mediated germline apoptosis after ionizing irradiation.Embryonic extracts derived from the nematode Caenorhabditis elegans remove uracil from DNA by the sequential action of uracil-DNA glycosylase and AP (apurinic/apyrimidinic) endonuclease.
P2860
Q21145244-FD88D2AE-B1F5-47B0-8E7E-D5502AA17D99Q26991732-6250906F-7ABC-48A5-90C6-AE1D4BA4F280Q27320177-3E0E9E41-BF90-404C-B874-C92EA709846EQ27320869-3B234877-660F-466F-AA9A-E6B863483400Q27324477-83FA770E-DCBC-4419-A3F6-8F56266EF3EFQ28384992-C77B5274-99D3-4C28-BFDD-28EDE5D0FBA4Q28506423-602DF343-B6F9-43A0-BC82-E9011C84C860Q28756805-6511F2E2-2121-4DB6-BCA2-D3DA350031B1Q30488602-3FFAE9B8-78BA-423A-B2E0-F1EC1BCCC0AFQ30803682-25E67E1D-7D21-47E3-B2E5-1E585A3BCCF5Q33340985-D0D2EEC0-54EB-4C46-BF1D-224378E66C37Q33641456-3C185A3E-EFBB-41BC-9605-71F75CD25F65Q33903791-6AC6E6A4-F15C-4987-BDAC-24FCCA873596Q33913156-EB4FA249-15EB-4BFC-B9AC-3FA060C52B40Q33917656-D04093DC-6447-4C68-AD37-C23A614AF4DCQ34352852-D451905C-25EC-4272-ADA7-C719588A0C84Q34525913-27C0853C-11DF-4C91-960A-B3FE8C925267Q34614445-0D58F42C-A7D0-41E3-90C0-13D4B9EE13B8Q34615840-3A715640-F3B0-4832-B6F8-20FF91EE8747Q34619746-9306EF58-F2B3-4981-B37A-D65FBB945D73Q34897855-6B9A8A75-8FF9-4241-ABE1-04CBC423DADBQ34931212-095407A4-54A0-4EC5-B8CF-8DCACAB6DB64Q34945606-DB57876D-4F7A-4AD5-AAA5-787FEE97C6D8Q35079512-4D9049C4-4214-4BEA-896E-64E546949EDCQ35092687-3BA05596-072D-42FF-8677-6A0F7A75B8B0Q35212439-58BEFBAB-520B-4FE8-A151-9BD08B8C1E90Q35676920-EA51D004-70D5-4500-9756-2A9999121A22Q35757732-A0B50BF0-6F7A-4566-A760-1C53C800602AQ35804006-0DFF4FEC-3EED-445D-8CDE-E0ACFEDAD4AFQ36274716-F6993741-5B4B-416C-B513-D71CD391EA46Q36311155-DE6FA49B-91F9-4DA0-9E7E-D2AC15EA2CCCQ36416137-39C96E5E-47E2-4642-B9D5-E8776AB9487FQ36960807-286010BC-1C80-419F-AF3E-8DF4E652FA8AQ36978345-C1BFE1DA-C179-4834-BE9D-5650A06F3CD3Q37056381-ADA5A1F4-3E22-46FB-B5F9-3B369188B71AQ37371435-AA8A8A91-9E29-40EB-ABA6-30F0CD0AA170Q38904492-41724562-70C4-49EC-81EF-BC34020EBBBAQ39061433-2CC70FE9-6CA6-4ECC-BF4F-4DC396551195Q40531878-BBE41D59-46AC-496D-9C3B-91607907E911Q41862949-1680E027-FF75-47E7-81ED-3FBCC1A8BF76
P2860
C. elegans mre-11 is required for meiotic recombination and DNA repair but is dispensable for the meiotic G(2) DNA damage checkpoint
description
2001 nî lūn-bûn
@nan
2001 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի մարտին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@ast
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@en
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@nl
type
label
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@ast
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@en
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@nl
prefLabel
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@ast
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@en
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@nl
P2860
P356
P1433
P1476
C. elegans mre-11 is required ...... tic G(2) DNA damage checkpoint
@en
P2093
A M Villeneuve
P2860
P304
P356
10.1101/GAD.864101
P407
P577
2001-03-01T00:00:00Z