A complex suite of forces drives gene traffic from Drosophila X chromosomes. - Wikidata - wikimedia - TriplyDB

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

http://www.wikidata.org/entity/Q33633516

about

The life cycle of Drosophila orphan genes Drosophila Muller F Elements Maintain a Distinct Set of Genomic Properties Over 40 Million Years of Evolution Gene duplication, tissue-specific gene expression and sexual conflict in stalk-eyed flies (Diopsidae)Segmental dataset and whole body expression data do not support the hypothesis that non-random movement is an intrinsic property of Drosophila retrogenes.Stage-specific expression profiling of Drosophila spermatogenesis suggests that meiotic sex chromosome inactivation drives genomic relocation of testis-expressed genes.The evolving puzzle of autosomal versus Y-linked male determination in Musca domestica Non-random genomic integration - an intrinsic property of retrogenes in Drosophila?Comparative Genomic Hybridization (CGH) reveals a neo-X chromosome and biased gene movement in stalk-eyed flies (genus Teleopsis).The Genomic Impact of Gene Retrocopies: What Have We Learned from Comparative Genomics, Population Genomics, and Transcriptomic Analyses?Relocation facilitates the acquisition of short cis-regulatory regions that drive the expression of retrogenes during spermatogenesis in Drosophila Meiotic sex chromosome inactivation in Drosophila Evolution of sex chromosomes in insects.No evidence for a global male-specific lethal complex-mediated dosage compensation contribution to the demasculinization of the Drosophila melanogaster X chromosome.Adaptive evolution of genes duplicated from the Drosophila pseudoobscura neo-X chromosome.Hyperexpression of the X chromosome in both sexes results in extensive female bias of X-linked genes in the flour beetle.Sex-chromosome evolution: recent progress and the influence of male and female heterogamety.Retrogenes reveal the direction of sex-chromosome evolution in mosquitoes Age-dependent chromosomal distribution of male-biased genes in Drosophila.Analyses of nuclearly encoded mitochondrial genes suggest gene duplication as a mechanism for resolving intralocus sexually antagonistic conflict in Drosophila.Sex linkage, sex-specific selection, and the role of recombination in the evolution of sexually dimorphic gene expression Faster-X evolution of gene expression in Drosophila New genes as drivers of phenotypic evolution.Sex-biased gene expression during head development in a sexually dimorphic stalk-eyed fly.The poly(A) polymerase GLD2 is required for spermatogenesis in Drosophila melanogaster The resolution of sexual antagonism by gene duplication.New gene evolution: little did we know Conflict on the sex chromosomes: cause, effect, and complexity.Gene duplication and the genome distribution of sex-biased genes Role of testis-specific gene expression in sex-chromosome evolution of Anopheles gambiae.Emergence of male-biased genes on the chicken Z-chromosome: sex-chromosome contrasts between male and female heterogametic systems Genome-wide analysis of retrogene polymorphisms in Drosophila melanogaster.No excess gene movement is detected off the avian or lepidopteran Z chromosome.Inferring the history of interchromosomal gene transposition in Drosophila using n-dimensional parsimony.Spermatogenesis Drives Rapid Gene Creation and Masculinization of the X Chromosome in Stalk-Eyed Flies (Diopsidae).Disentangling the relationship between sex-biased gene expression and X-linkage.Repeated evolution of testis-specific new genes: the case of telomere-capping genes in Drosophila.Genomic variation in natural populations of Drosophila melanogaster.Little evidence for demasculinization of the Drosophila X chromosome among genes expressed in the male germline 'Escaping' the X chromosome leads to increased gene expression in the male germline of Drosophila melanogaster.A long-term demasculinization of X-linked intergenic noncoding RNAs in Drosophila melanogaster.

P2860

Q21128779-2E463A39-3546-4E02-A119-49323923376D Q21558768-72733D61-4B46-4E62-9B1B-B8DF0E8C0755 Q26824819-9EC94477-1BBE-46FE-99D8-777B0BC5B7D8 Q30561394-12AF323E-858F-425A-9CD4-0F192067B934 Q30912150-6A52C368-279E-4034-BEE5-B2303D2ECF5C Q33359805-E725D6C7-DCD5-4238-9580-DC7EE7AB15CC Q33567253-57008D76-A13C-4E17-8252-EDBED126DF5D Q33700548-806E07BA-51DA-420A-978A-706B0BBC2D6B Q33797238-42ECF2E5-FC2E-451E-828D-FE0C0D6F0567 Q33923539-217F7743-0139-420F-BC5D-3CCE32A660F9 Q33927810-9E56F2E2-DC0E-4EA0-9821-F45A31876DA2 Q33929744-8B24693D-A1E8-4DA1-B59E-F2FB2D865C9E Q34005239-D710D2FC-2106-4AFA-9883-7EA641ED2FAF Q34042403-E33740F9-899B-4BF3-80ED-6FD0541F8853 Q34140283-E4B808CA-98F8-4DF2-A6FD-31A70269D98D Q34163212-B23EA2D6-DE40-481F-B690-AB9931A3392E Q34196373-E794B6BA-5B28-4E33-8A5B-6CB80DE741C4 Q34239170-E8BB25A8-489F-4319-BB53-3AC5AF142520 Q34369947-225894C3-5F0A-43B1-A2BF-99D04D7C2CFA Q34388337-8DB84251-B9D8-48B0-90B3-51B006CEABF2 Q34446695-32292347-7399-4CF7-9AA2-E9A3395ABFA9 Q34535226-7FE7B4C7-5E32-4CDE-BB7C-70C4AEA6D39B Q34635540-50DBB1B2-67EF-46F1-8B3C-A9CEBA77BEE7 Q34707696-6F29D088-B6B9-4226-9B1C-1D4733E6059B Q34715076-AFB86EB0-CF8A-4F0D-97ED-3B2251B0C25C Q34802805-72964D47-84CA-41A9-B6C6-CEEAD9EAA4B6 Q34931111-F530478A-CCBA-4CE2-AD86-9D1EBD8445B3 Q35196946-A87A5FD2-1285-4DE5-AD5E-AAE100B54706 Q35541953-1CD17E9C-E20F-4D57-ADAE-229BD75FCD18 Q35581557-9826D6A0-D10E-41E2-A16C-3D78E38EB4F8 Q35581559-124BA7C9-0DA9-4705-A1BF-C1AAD5065C76 Q35622998-9DD2879C-23F0-40FB-AC83-488908BA0B18 Q35748310-25A95F9A-1C2D-4AB7-827C-E50E48774BCC Q35948471-CB71A58A-58C2-41E8-8768-B02FD68E20CE Q36093886-7E2BE2DD-AA0A-40E3-8A28-DD5F89B1B366 Q36107228-AD45207C-5296-4CE6-B78C-C5A00C32AE85 Q36268123-08D6BD63-0D4F-48F4-9EBB-FF23731F0F30 Q36375455-1CE96CD7-0CCB-43B8-A08A-B32EC32A6E87 Q37533061-5D2881F6-DD8C-4799-BDF6-AD2898767C3B Q37683465-AC68FB87-4A00-4D5F-B656-CBAA5F237194

P2860

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

http://www.wikidata.org/entity/Q33633516

description

2009 nî lūn-bûn

@nan

2009 թուականի Յուլիսին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի հուլիսին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

name

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

@ast

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

@en

type

label

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

@ast

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

@en

prefLabel

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

@ast

A complex suite of forces drives gene traffic from Drosophila X chromosomes.

@en

P1433

Q33633516-3167AA6B-463F-4C0D-8033-336EB4A9560E

P1476

Q33633516-FC46CF5A-5346-44A4-A0D7-A9CC4EA0489B

P2093

Q33633516-070D9C42-25C7-462B-BAC1-87663229F02C

Q33633516-59AB5042-0212-47A6-9CDE-24602E1BE16C

P2860

Q33633516-02555C5F-C27F-4B41-A3FD-6B6EAB154351

Q33633516-05D42030-49FE-45AB-B9B9-8874373EDF7C

Q33633516-070A5728-C9F2-4FEF-A910-333EDD5FF6AE

Q33633516-072FCE42-DD47-4821-93A9-0DE7DB13713D

Q33633516-0B01D0FE-DFD2-453D-9C4E-FD101C1AE58D

Q33633516-14336909-5DFA-4C7E-A109-67087D6DE2E0

Q33633516-1BDAC67F-AED8-40DB-A04B-30D707A807E7

Q33633516-1FB2F103-B833-4108-A0AB-6A445C51F085

Q33633516-24AB902B-1E70-410B-9182-0664C52595B4

Q33633516-3675C759-8938-4D8E-8F64-02F4CD1DA480

P304

Q33633516-8BD242DD-F7E8-4F67-B40D-D809307872B9

P31

Q33633516-B1C9C95C-0ED6-4319-9AEA-66EC150DD6D4

P356

Q33633516-D95EBF66-F6BB-4BD6-86A6-C4C997D91DFD

P478

Q33633516-CC0D65BF-CB00-43D9-9210-98F6C63C604F

P50

Q33633516-BEC2771E-D2BE-47FB-8C2C-709FDEED8512

P577

Q33633516-C12E68F6-59BB-460F-88E2-95B07D96F901

P5875

Q33633516-8E4A0845-9BFE-4D09-8EFF-ED7818F4A234

P698

Q33633516-DD0BBE52-DC64-4F75-AE48-129F907613DE

P921

Q33633516-CB13F718-7309-4EBB-BC36-052CA57B8DB4

P932

Q33633516-0A64E34F-60D7-4BE8-9890-E8CB552BDD6F

P356

P1433

Genome Biology and Evolution

P1476

A complex suite of forces drives gene traffic from Drosophila X chromosomes

@en

P2093

Matthew W Hahn

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

Mira V Han

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

P2860

Gene family evolution across 12 Drosophila genomes

Comparative genome sequencing of Drosophila pseudoobscura: chromosomal, gene, and cis-element evolution

Evolution of genes and genomes on the Drosophila phylogeny

Insights into social insects from the genome of the honeybee Apis mellifera

Novel genes derived from noncoding DNA in Drosophila melanogaster are frequently X-linked and exhibit testis-biased expression

MUSCLE: multiple sequence alignment with high accuracy and high throughput

An X-to-autosome retrogene is required for spermatogenesis in mice

RNA-based gene duplication: mechanistic and evolutionary insights

Using FlyAtlas to identify better Drosophila melanogaster models of human disease

X-chromosome silencing in the germline of C. elegans.

P304

176-188

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

P31

scholarly article

P356

10.1093/GBE/EVP018

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

P478

1

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

P50

Richard P Meisel

P577

2009-07-07T00:00:00Z

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

P5875

42441581

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

P698

20333188

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

P921

P932

2817413

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