about
sameAs
Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)The Amborella Genome and the Evolution of Flowering PlantsThe Medicago genome provides insight into the evolution of rhizobial symbiosesThe Sorghum bicolor genome and the diversification of grassesA physical map for the Amborella trichopoda genome sheds light on the evolution of angiosperm genome structureThe genome of the mesopolyploid crop species Brassica rapaUnraveling ancient hexaploidy through multiply-aligned angiosperm gene mapsPhylogenetic relationships in Elymus (Poaceae: Triticeae) based on the nuclear ribosomal internal transcribed spacer and chloroplast trnL-F sequencesIntegrated syntenic and phylogenomic analyses reveal an ancient genome duplication in monocotsThe Genome of a Southern Hemisphere Seagrass Species (Zostera muelleri).QUBIC: a qualitative biclustering algorithm for analyses of gene expression dataMicrocollinearity between autopolyploid sugarcane and diploid sorghum genomes.Angiosperm genome comparisons reveal early polyploidy in the monocot lineage.A draft physical map of a D-genome cotton species (Gossypium raimondii)The draft genome of the transgenic tropical fruit tree papaya (Carica papaya Linnaeus).Screening synteny blocks in pairwise genome comparisons through integer programming.Comparative physical mapping links conservation of microsynteny to chromosome structure and recombination in grasses.Modes of gene duplication contribute differently to genetic novelty and redundancy, but show parallels across divergent angiosperms.Profiling of gene duplication patterns of sequenced teleost genomes: evidence for rapid lineage-specific genome expansion mediated by recent tandem duplications.Altered patterns of fractionation and exon deletions in Brassica rapa support a two-step model of paleohexaploidy.MCScanX: a toolkit for detection and evolutionary analysis of gene synteny and collinearity.Unleashing the genome of brassica rapaExtensive concerted evolution of rice paralogs and the road to regaining independence.PGDD: a database of gene and genome duplication in plantsThe pineapple genome and the evolution of CAM photosynthesisSeed shattering in a wild sorghum is conferred by a locus unrelated to domesticationComparative inference of illegitimate recombination between rice and sorghum duplicated genes produced by polyploidization.Comparative genomic analysis of C4 photosynthetic pathway evolution in grasses.The pangenome of an agronomically important crop plant Brassica oleracea.Domestication and plant genomes.Insights from the comparison of plant genome sequences.Insight into the evolution of the Solanaceae from the parental genomes of Petunia hybrida.Comparative analysis of peanut NBS-LRR gene clusters suggests evolutionary innovation among duplicated domains and erosion of gene microsynteny.Different gene families in Arabidopsis thaliana transposed in different epochs and at different frequencies throughout the rosids.Finding and comparing syntenic regions among Arabidopsis and the outgroups papaya, poplar, and grape: CoGe with rosids.The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism.Gobe: an interactive, web-based tool for comparative genomic visualization.Seventy million years of concerted evolution of a homoeologous chromosome pair, in parallel, in major Poaceae lineages.The asparagus genome sheds light on the origin and evolution of a young Y chromosome.Comparative analysis of Gossypium and Vitis genomes indicates genome duplication specific to the Gossypium lineage.
P50
Q21183987-63C98BBC-6D3B-45C2-B8E8-00069068A319Q22065597-06134E01-5092-430C-B811-05A06A1B14D7Q22122164-95C98CC6-EEEF-4E8F-BF7E-716F7D014A01Q22122216-DA649832-733C-40A2-A9F0-215367E27C51Q27499656-6FCF35CD-E407-4B2A-9C5F-86AB095ADD04Q28246556-20A7B79C-4A04-4C41-98C1-36785C77616BQ28295877-E7CFAEA8-922A-4E2E-8C67-2CB396A8E085Q28306667-CB7C2808-333B-4211-8C04-D0116ED15BD5Q28654223-49E72E84-AB36-4EF4-9DA5-1DAAEDC7CAEDQ31112038-A7110C18-6CC6-44B4-A360-A8898B266862Q33464828-F385B6D9-5238-4FEE-86ED-AA84BDF2BCDCQ33563227-1E37DA7B-82D0-433D-B865-07D1068D6B6EQ33591519-6AB35D25-CDBF-480E-9AED-5A75DF465732Q33612934-D098D79A-E253-4C77-9304-84A90F168D42Q33719213-EB1D3461-73D6-43EA-9B4E-8A070545769BQ33875910-1CE6D040-54FE-47D7-B70D-75D9AFA4F63AQ33947850-01076BF9-BED1-4146-93F6-FAF95CEC9943Q34099016-910E2017-D368-4BB2-BA78-0E1963E8513DQ34306235-B8057431-7834-4AC0-BED8-EB158F35E1F4Q35863144-C124D019-8BE0-46A7-877E-29F6201AEEAEQ35888863-C8DE3FCD-B359-4C71-A99F-DCFB480E8B3CQ36128712-86B4C0BB-5F15-4E8C-8A10-35C5B215F617Q36287800-B985931A-9515-4A96-A2A5-A21CA8E785A5Q36491514-2F4CD8E1-CE90-4D71-A04B-9B92653B1594Q36901868-FFBFDB82-308B-4FCF-A6A3-298815C6EBC0Q37204026-E46A13D9-2E78-4E20-A540-988F1A1D7016Q37222792-810F1AAC-D8C8-43B5-9A0F-CDAC385A20E4Q37282888-FAEE3A60-9C67-4F4A-A9CF-81FBBFC2941FQ37421749-72230DF7-DD9E-4AD8-962E-120EDD2577A5Q37640485-873C068F-CFEA-4A6C-A4A9-A7003F3A6CCCQ37742162-0F7084BB-92DD-4DB6-9155-305EE837FC9FQ40721941-E0806869-0B1A-49EE-86E0-80FCAC1729DAQ44803355-D33CD4A6-77E6-4A46-B44C-6FB7C657321CQ46009006-58B999C3-DB7D-4DEC-A3F7-75B90F50FAFDQ46064782-11729E8B-9E33-40D2-9237-D56AE12A4CD0Q46249716-E028180F-12C2-461B-881A-B4365BF37935Q46305723-12F2125C-EE49-416E-9302-7DC07C976297Q46714699-B69F1D9B-4547-4439-85A5-E8BA2E5B6187Q47147619-9874A023-5631-48C2-9665-C7F7807D3894Q47318519-6FBD42E8-1CDA-4697-80C3-92F9B161098B
P50
description
Chinees geneticus
@nl
Chinese geneticist
@en
Chinese geneticist
@en-ca
Chinese geneticist
@en-gb
chinesischer Genetiker
@de
chiński genetyk
@pl
geneticista chinês
@pt
genetista chino
@es
genetista cinese
@it
genetista txinatarra
@eu
name
Haibao Tang
@ast
Haibao Tang
@cy
Haibao Tang
@en
Haibao Tang
@es
Haibao Tang
@fr
Haibao Tang
@ga
Haibao Tang
@nl
type
label
Haibao Tang
@ast
Haibao Tang
@cy
Haibao Tang
@en
Haibao Tang
@es
Haibao Tang
@fr
Haibao Tang
@ga
Haibao Tang
@nl
prefLabel
Haibao Tang
@ast
Haibao Tang
@cy
Haibao Tang
@en
Haibao Tang
@es
Haibao Tang
@fr
Haibao Tang
@ga
Haibao Tang
@nl
P108
P106
P108
P1153
8855616000
P1960
66lj2Z0AAAAJ
P2038
Haibao_Tang
P21
P31
P496
0000-0002-3460-8570
P569
1953-01-01T00:00:00Z