The evolution of vertebrate antigen receptors: a phylogenetic approach. - Wikidata - wikimedia - TriplyDB

The evolution of vertebrate antigen receptors: a phylogenetic approach.

The evolution of vertebrate antigen receptors: a phylogenetic approach.

http://www.wikidata.org/entity/Q47686467

about

A structural basis for antigen recognition by the T cell-like lymphocytes of sea lamprey Relationship between phylogeny and immunity suggests older Caribbean coral lineages are more resistant to disease Characterization of arrangement and expression of the T cell receptor gamma locus in the sandbar shark Structural reconstruction of protein ancestry.Divergent T-cell receptor delta chains from marsupials.Comparative genomic analysis and evolution of the T cell receptor loci in the opossum Monodelphis domestica Generation of individual diversity: a too neglected fundamental property of adaptive immune system.The origins of vertebrate adaptive immunity.Adipose tissues as an ancestral immune organ: site-specific change in obesity.Global characterization of differential gene expression profiles in mouse Vγ1+ and Vγ4+ γδ T cells.An evolutionarily mobile antigen receptor variable region gene: doubly rearranging NAR-TcR genes in sharks.Four primordial immunoglobulin light chain isotypes, including lambda and kappa, identified in the most primitive living jawed vertebrates.The Vγ9Vδ2 T Cell Antigen Receptor and Butyrophilin-3 A1: Models of Interaction, the Possibility of Co-Evolution, and the Case of Dendritic Epidermal T Cells.Structural, antigenic and evolutionary analyses of immunoglobulins and T cell receptors.Genomic analysis offers insights into the evolution of the bovine TRA/TRD locus.Structural evidence for evolution of shark Ig new antigen receptor variable domain antibodies from a cell-surface receptor.Characterization of γδ T Cells from Zebrafish Provides Insights into Their Important Role in Adaptive Humoral Immunity.Design principles of adaptive immune systems.Shark variable new antigen receptor biologics - a novel technology platform for therapeutic drug development.Food-Nonfood Discrimination in Ancestral Vertebrates: Gamete Cannibalism and the Origin of the Adaptive Immune System.E. coli promotes human Vγ9Vδ2 T cell transition from cytokine-producing bactericidal effectors to professional phagocytic killers in a TCR-dependent manner.Analysis of the binding loops configuration and surface adaptation of different crystallized single-domain antibodies in response to various antigens.Interleukin 17 is a chief orchestrator of immunity.Vγ9 and Vδ2 T cell antigen receptor genes and butyrophilin 3 (BTN3) emerged with placental mammals and are concomitantly preserved in selected species like alpaca (Vicugna pacos).Generation of diversity by somatic mutation in the Camelus dromedarius T-cell receptor gamma variable domains.

P2860

Q27663286-ED381D06-8BEB-4AC3-BA2A-9E87B059AC04 Q28654472-D98307C5-76B8-44EE-9C16-F2D78FF902DA Q28752670-74C65475-F3A6-4A00-9CD9-7A3BD658A1C5 Q30400464-94E10581-B720-49D6-B0C9-1E6BB2430643 Q33223294-8DC8866B-4041-4BFE-A4C1-D757BA2CE930 Q33321967-CB89C523-10D4-4419-A7F0-B290B743008B Q33633789-084DA9CA-794A-4767-BFE5-49729982D57B Q34058456-E8292B25-64EB-4D25-80FF-510721F79B43 Q34426141-896FBCCC-ACC9-4E03-A1AE-6F3AF30278B4 Q34535582-1A940D41-90C5-4FE5-AFEC-1EED1F4BA5E4 Q34596851-65FF8F85-623E-4A4B-BA25-D94C4584B8E2 Q34694449-1558B1B6-488D-4CB1-81DC-8189B99C4DC0 Q34741552-D898B77C-BEE8-4A6C-BFD5-D544151FCC46 Q35007292-74D2D82F-D88F-451F-AE22-5C6AFF9FB682 Q35435041-0E1A7A3E-1275-4421-B47E-24C1FEDAD2A5 Q37493825-69A548EA-A3D7-4A94-90CE-E5F67549F402 Q37570547-E24297B5-0D3C-4352-8456-4C8BAA05A97A Q37862986-FF546D7E-FE2E-4839-91A0-69873785E412 Q38236706-C3880E91-09C9-4ECC-B2CE-709D244476F2 Q38569164-80F49C07-8C24-4EC5-981D-194CEC669FCB Q38742060-B83DDFFF-6B38-4845-8627-63D3CEFB5345 Q39174984-A25AF57C-C40C-4621-A8DB-A7A1DEDA7367 Q39314776-447973C5-4849-4457-939C-E4B495AB309B Q42237075-A7D78423-E306-4A1D-B448-3216C79DC91A Q44668250-A49A0354-925E-4EE2-9A6B-C36DAEDAB300

P2860

The evolution of vertebrate antigen receptors: a phylogenetic approach.

http://www.wikidata.org/entity/Q47686467

description

2000 nî lūn-bûn

@nan

2000年の論文

@ja

2000年学术文章

@wuu

2000年学术文章

@zh-cn

2000年学术文章

@zh-hans

2000年学术文章

@zh-my

2000年学术文章

@zh-sg

2000年學術文章

@yue

2000年學術文章

@zh

2000年學術文章

@zh-hant

name

The evolution of vertebrate antigen receptors: a phylogenetic approach.

@en

The evolution of vertebrate antigen receptors: a phylogenetic approach.

@nl

type

label

The evolution of vertebrate antigen receptors: a phylogenetic approach.

@en

The evolution of vertebrate antigen receptors: a phylogenetic approach.

@nl

prefLabel

The evolution of vertebrate antigen receptors: a phylogenetic approach.

@en

The evolution of vertebrate antigen receptors: a phylogenetic approach.

@nl

P1433

Q47686467-2A88745D-402F-4574-96C0-4E63521446ED

P1476

Q47686467-4AEA9D72-06C2-4593-AC72-6B271AF5ABCA

P2093

Q47686467-391AC07D-8279-4E5E-A814-AF739FE42B17

Q47686467-911C963B-EDB7-453D-8482-7493E7C19C18

P2860

Q47686467-05C909C9-A606-4B1B-9E91-297531675EF2

Q47686467-0B41DBC2-86B5-4A91-869F-4A5D7546BB31

Q47686467-0F2025EF-201E-420A-BD53-B5041FAB5124

Q47686467-17F14480-82ED-4882-9C73-475DB1A37DF8

Q47686467-18904085-D4C8-46CF-93F6-D27D446D77E0

Q47686467-19E3C9A2-FFFF-4288-BA13-0228844AD5CF

Q47686467-29B7F50C-917C-4698-BAA2-3F5BAF801306

Q47686467-2EC2FAB8-3028-4EEF-A4E5-C4184D4D4ED8

Q47686467-347D80D5-461A-473F-A6E2-47C1AF1BF16B

Q47686467-46CB373D-1BB6-4F36-967E-74D541ABA22A

P304

Q47686467-9C9369A8-2AF1-4245-9634-6A64EF8D4B0D

P31

Q47686467-777B6D09-068F-4B6A-BD5B-224DCB03A03E

P356

Q47686467-00D9DE32-9101-4FF5-9DF7-27C449E8F553

P433

Q47686467-9C70B0EC-CB3B-43A1-8E8E-EA81B3A3466E

P478

Q47686467-8346EF0A-06F8-4EAE-B76E-C7F696511917

P577

Q47686467-A481B928-4739-497C-BE3D-57F66106FC14

P5875

Q47686467-5007D647-D08A-4F10-90A4-4F795B839B6D

P698

Q47686467-6D67D577-AF50-4551-A934-8195D1834244

P921

Q47686467-AA245394-877C-4743-96C9-4525CDD1FB31

P356

OXFORDJOURNALS.MOLBEV.A026227

P1433

Molecular Biology and Evolution

P1476

The evolution of vertebrate antigen receptors: a phylogenetic approach.

@en

P2093

J L Nelson

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

M H Richards

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

P2860

Use of a variable alpha region to create a functional T-cell receptor delta chain

A comprehensive set of sequence analysis programs for the VAX

A new antigen receptor gene family that undergoes rearrangement and extensive somatic diversification in sharks

Naturally occurring antibodies devoid of light chains

CLUSTAL: a package for performing multiple sequence alignment on a microcomputer

A new high molecular weight immunoglobulin class from the carcharhine shark: implications for the properties of the primordial immunoglobulin

Progressive sequence alignment as a prerequisite to correct phylogenetic trees

Immunoglobulins did not arise in evolution to fight infection.

Molecular evolution of the vertebrate immune system

In an immunological twilight zone.

P304

146-155

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

P31

scholarly article

P356

10.1093/OXFORDJOURNALS.MOLBEV.A026227

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

P433

1

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

P478

17

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

P577

2000-01-01T00:00:00Z

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

P5875

12648046

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

P698

10666714

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

P921