P element-mediated in vivo deletion analysis of white-apricot: deletions between direct repeats are strongly favored. - Wikidata - awgldk - TriplyDB

P element-mediated in vivo deletion analysis of white-apricot: deletions between direct repeats are strongly favored.

P element-mediated in vivo deletion analysis of white-apricot: deletions between direct repeats are strongly favored.

http://www.wikidata.org/entity/Q33962450

about

Drosophila SPF45: a bifunctional protein with roles in both splicing and DNA repair Multiple pathways of recombination induced by double-strand breaks in Saccharomyces cerevisiae Meiotic versus mitotic recombination: two different routes for double-strand break repair: the different functions of meiotic versus mitotic DSB repair are reflected in different pathway usage and different outcomes REC, Drosophila MCM8, drives formation of meiotic crossovers.Evidence for multiple cycles of strand invasion during repair of double-strand gaps in Drosophila Genome Engineering With Zinc-Finger Nucleases Dual roles for DNA polymerase theta in alternative end-joining repair of double-strand breaks in Drosophila.Suppressor U1 snRNAs in Drosophila.Rearrangements involving repeated sequences within a P element preferentially occur between units close to the transposon extremities DNA sequence analyses support the role of interrupted gap repair in the origin of internal deletions of the maize transposon, MuDR Mu element-generated gene conversions in maize attenuate the dominant knotted phenotype.Expansions and contractions in a tandem repeat induced by double-strand break repair.End-joining repair of double-strand breaks in Drosophila melanogaster is largely DNA ligase IV independent.Damage control: the pleiotropy of DNA repair genes in Drosophila melanogaster Self-inflicted wounds, template-directed gap repair and a recombination hotspot. Effects of the mariner transposase.Efficient repair of DNA breaks in Drosophila: evidence for single-strand annealing and competition with other repair pathways.Mutational analysis of the Drosophila DNA repair and recombination gene mei-9 Females and males contribute in opposite ways to the evolution of gene order in Drosophila.Drosophila ATR in double-strand break repair.A transposable element can drive the concerted evolution of tandemly repetitious DNA.Multiple functions of Drosophila BLM helicase in maintenance of genome stability.The pugilistDominant Mutation of Drosophila melanogaster: A Simple-Sequence Repeat Disorder Reveals Localized Transport in the Eye.Annealing of Complementary DNA Sequences During Double-Strand Break Repair in Drosophila Is Mediated by the Ortholog of SMARCAL1.Efficient gap repair in Drosophila melanogaster requires a maximum of 31 nucleotides of homologous sequence at the searching ends Genome engineering: Drosophila melanogaster and beyond Donor DNA Utilization During Gene Targeting with Zinc-Finger Nucleases.Genetic analysis of zinc-finger nuclease-induced gene targeting in Drosophila.An essential role of DmRad51/SpnA in DNA repair and meiotic checkpoint control.Formation of deletions during double-strand break repair in Drosophila DmBlm mutants occurs after strand invasion.Human Cell Assays for Synthesis-Dependent Strand Annealing and Crossing over During Double-Strand Break Repair.Double-strand break repair assays determine pathway choice and structure of gene conversion events in Drosophila melanogaster.DNA Repair in Drosophila: Mutagens, Models, and Missing Genes.Abortive gap repair: underlying mechanism for Ds element formation.Birth of three stowaway-like MITE families via microhomology-mediated miniaturization of a Tc1/Mariner element in the yellow fever mosquito.Protected P-element termini suggest a role for inverted-repeat-binding protein in transposase-induced gap repair in Drosophila melanogaster.Tissue-specific accumulation of MURB, a protein encoded by MuDR, the autonomous regulator of the Mutator transposable element family.The spectrum and frequency of self-inflicted and host gene mutations produced by the transposon Ac in maize.

P2860

Q21145249-42121111-9718-4F3A-B840-9D71A3DA0DF6 Q24548535-D6515B19-D1D1-4AFA-92CA-3040C7A0C1C4 Q24597411-83F93365-5AA2-4896-A1A8-0E2443BB9D78 Q24815749-E2F47100-6A7A-49A0-9377-F94ECD78E52E Q28768697-04C842FA-7754-4567-A6FC-2B79C0300914 Q29301748-F5A4DBCB-9B5A-4999-9E7A-82A94510DF2C Q33628866-A0434F1F-339A-45CB-8ABF-439D0BB0FE15 Q33963665-35C7DC8F-7D32-4493-86C9-20497B4F59CB Q33966640-A643315F-B3DE-4330-88F2-849989F1B6D5 Q33966700-BDE45DAB-9857-4E32-9EFE-F07EECB06885 Q33970679-62CC591A-FEF9-4C42-8325-CD1BD3EF6F49 Q33994800-893E9012-CD5E-4EB3-81C9-DF416D3A4603 Q34569414-59F3D63C-76C1-449D-8DBE-6BCF94321530 Q34603838-D0024D2C-FCC4-4241-AFFA-B60626041AFD Q34608735-FE37897E-A692-4B23-A608-111060ACE402 Q34615340-BBE5C46B-3E7F-42B0-AE11-3385076BF308 Q34644455-5A1485D7-8757-4E36-BA55-A46B292B1C73 Q34734216-54A7B7E8-944F-436C-8327-50218785FB77 Q35730250-B0B51A3E-9800-4365-9B76-41A790C8ED45 Q35760453-224C0E83-DBDC-4FCA-8CEC-0EC2DBC470E3 Q35945619-0DDE8C41-C44F-4A17-9758-7F134337454D Q35964841-208477A4-201E-47E1-913A-C02424DFACE4 Q36297096-A2AF9CCC-F555-440C-B6B4-60AE70B366C2 Q36565135-F46E3B32-B9BB-4A81-BC5E-A403775B328E Q36600188-1107B809-20A8-407E-A15D-A4FB03E05DFC Q36744933-E4B6684C-E8E0-4481-AA61-3FED206C56AE Q37260560-14088F79-7588-4BB5-97E8-94886712E95B Q37368057-FA4AC05F-10AF-445D-BE0C-826B68A90515 Q37595768-838D538B-6E00-4EE4-A145-86AAD602BD16 Q37746456-2BDA1301-2F1A-47A6-8097-143A3DD416C5 Q38400007-FCC05553-DA65-4773-9461-3455FF498B1D Q39116605-0A712B64-F52C-4E93-837B-D7CFC199858D Q40023709-686BC04D-78EA-4DD3-86BB-7F9E032C0F24 Q40233541-3EB1DBC6-E049-4059-BC95-85FF5216DC87 Q42965450-883B0161-D8E1-4463-9AF6-B8A9ED57CA60 Q46088617-5173CB84-C12A-4017-B38F-FBFBE38BB59F Q47290160-3D9C722F-7F5D-4A26-8449-6D58EB49AC3D

P2860

P element-mediated in vivo deletion analysis of white-apricot: deletions between direct repeats are strongly favored.

http://www.wikidata.org/entity/Q33962450

description

1994 nî lūn-bûn

@nan

1994 թուականի Մարտին հրատարակուած գիտական յօդուած

@hyw

1994 թվականի մարտին հրատարակված գիտական հոդված

@hy

1994年の論文

@ja

1994年論文

@yue

1994年論文

@zh-hant

1994年論文

@zh-hk

1994年論文

@zh-mo

1994年論文

@zh-tw

1994年论文

@wuu

name

P element-mediated in vivo del ...... repeats are strongly favored.

@ast

P element-mediated in vivo del ...... repeats are strongly favored.

@en

type

label

P element-mediated in vivo del ...... repeats are strongly favored.

@ast

P element-mediated in vivo del ...... repeats are strongly favored.

@en

prefLabel

P element-mediated in vivo del ...... repeats are strongly favored.

@ast

P element-mediated in vivo del ...... repeats are strongly favored.

@en

P1433

Q33962450-8633243B-3F0D-462E-BB30-D403AA7C3419

P1476

Q33962450-F4F94BE0-331E-474F-925D-417321129CF1

P2093

Q33962450-19408260-7933-4CD0-BE53-6183E0A5845E

Q33962450-2CDD3CFA-2C8C-41CD-B146-74A6B2D57FF5

Q33962450-6F38B618-21AE-4D6A-A0E6-552AF2DEFA19

P2860

Q33962450-05F8EFDA-C8FA-40E5-9054-EF400C3FFD1F

Q33962450-0703595B-E0BD-40D0-BB6D-E4839D5B8487

Q33962450-1CD00538-1C45-4000-9116-4E4D084CCBC5

Q33962450-1CF67570-B55D-4ABD-B889-FCAE6EF5553C

Q33962450-1E592CEE-02A9-4AF4-A0CA-A7223A802908

Q33962450-22A99AC7-E13A-4036-A519-56D95CFC01B0

Q33962450-3EFB73AC-8C65-4DFC-AA84-81DEC502AF3C

Q33962450-4DA71E2E-D067-49B2-940E-1E42769E4639

Q33962450-66AA67D8-E3A8-44C5-A480-552D9924EFB5

Q33962450-6B7B7F05-52EF-4416-961D-0F4B2B24A11D

P304

Q33962450-E1E3FFA6-CE68-47ED-87F9-BCE2DCC0245C

P31

Q33962450-7D8AF730-4EFC-404F-A783-7211A44B0E77

P407

Q33962450-F96D47F6-B83D-4782-A753-C0F3D3D39BB7

P433

Q33962450-2AAC7005-5A32-4630-A324-96D1D66BFCE1

P478

Q33962450-6C156109-A510-476D-8C55-B325A11694BF

P50

Q33962450-991AAEEF-A361-495C-8B29-B7DBA7A6011B

P577

Q33962450-BA27FA0A-C092-46EE-9ECC-C888C501CEC6

P698

Q33962450-55B72DC5-D921-41FB-9C45-FBBD753D06A9

P932

Q33962450-2444F6C7-2595-4835-A8DA-5B38F71D2587

P1433

P1476

P element-mediated in vivo del ...... t repeats are strongly favored

@en

P2093

D Roy

http://www.w3.org/2001/XMLSchema#string

J M Weinberg

http://www.w3.org/2001/XMLSchema#string

M Kurkulos

http://www.w3.org/2001/XMLSchema#string

P2860

DNA sequencing with chain-terminating inhibitors

DNA sequence analysis with a modified bacteriophage T7 DNA polymerase

Analysis of genetic mosaics in developing and adult Drosophila tissues

Tissue-specific transcriptional enhancers may act in trans on the gene located in the homologous chromosome: the molecular basis of transvection in Drosophila.

Expression of the Drosophila white gene under the control of the hsp70 heat shock promoter.

Genetic and physical studies of a portion of the white locus participating in transcriptional regulation and in synapsis-dependent interactions in Drosophila adult tissues

Use of P-element-mediated transformation to identify the molecular basis of naturally occurring variants affecting Adh expression in Drosophila melanogaster.

Partial revertants of the transposable element-associated suppressible allele white-apricot in Drosophila melanogaster: structures and responsiveness to genetic modifiers.

A stable genomic source of P element transposase in Drosophila melanogaster.

P element transposition in Drosophila melanogaster: an analysis of sister-chromatid pairs and the formation of intragenic secondary insertions during meiosis.

P304

1001-1011

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

136

http://www.w3.org/2001/XMLSchema#string

P50

Stephen M. Mount

P577

1994-03-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

8005410

http://www.w3.org/2001/XMLSchema#string

P932

1205858

http://www.w3.org/2001/XMLSchema#string