LegumeIP: an integrative database for comparative genomics and transcriptomics of model legumes
about
A Snapshot of Functional Genetic Studies in Medicago truncatulaSFGD: a comprehensive platform for mining functional information from soybean transcriptome data and its use in identifying acyl-lipid metabolism pathwaysIn silico identification of transcription factors in Medicago sativa using available transcriptomic resources.Naturally occurring diversity helps to reveal genes of adaptive importance in legumesGenomic and phenotypic analysis of Vavilov's historic landraces reveals the impact of environment and genomic islands of agronomic traits.An RNA-Seq based gene expression atlas of the common bean.Analysis of the alfalfa root transcriptome in response to salinity stress.Scanning the effects of ethyl methanesulfonate on the whole genome of Lotus japonicus using second-generation sequencing analysis.The Medicago sativa gene index 1.2: a web-accessible gene expression atlas for investigating expression differences between Medicago sativa subspecies.CTDB: An Integrated Chickpea Transcriptome Database for Functional and Applied Genomics.Transcriptome Profiling of Wild Arachis from Water-Limited Environments Uncovers Drought Tolerance Candidate GenesTranscriptome Sequencing of Lima Bean (Phaseolus lunatus) to Identify Putative Positive Selection in Phaseolus and Legumes.Expansion of the phosphatidylethanolamine binding protein family in legumes: a case study of Lupinus angustifolius L. FLOWERING LOCUS T homologs, LanFTc1 and LanFTc2.LegumeIP 2.0--a platform for the study of gene function and genome evolution in legumesTranscriptome Response Mediated by Cold Stress in Lotus japonicusNetworks Underpinning Symbiosis Revealed Through Cross-Species eQTL Mapping.The Vigna Genome Server, 'VigGS': A Genomic Knowledge Base of the Genus Vigna Based on High-Quality, Annotated Genome Sequence of the Azuki Bean, Vigna angularis (Willd.) Ohwi & Ohashi.Multiple mutualist effects on genomewide expression in the tripartite association between Medicago truncatula, nitrogen-fixing bacteria and mycorrhizal fungi.The root hair "infectome" of Medicago truncatula uncovers changes in cell cycle genes and reveals a requirement for Auxin signaling in rhizobial infection.Dissecting the 'bacon and eggs' phenotype: transcriptomics of post-anthesis colour change in Lotus.Enhanced Secondary- and Hormone Metabolism in Leaves of Arbuscular Mycorrhizal Medicago truncatula.Regulation of Carbon Partitioning in the Seed of the Model Legume Medicago truncatula and Medicago orbicularis: A Comparative Approach.Nodule-Enriched GRETCHEN HAGEN 3 Enzymes Have Distinct Substrate Specificities and Are Important for Proper Soybean Nodule Development.Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution.A comprehensive review of web-based resources of non-coding RNAs for plant science research.Genome-wide identification, characterization, and evolutionary analysis of NBS-encoding resistance genes in barley
P2860
Q26739410-FE077366-9EAF-4E09-9E46-9A70B1709BBBQ30000675-D0F78FE0-4470-4574-A5CD-25FA723907E5Q30486766-FC6D9AB1-5AC6-4A33-99D2-74411F8CF598Q30946779-082437A9-0A64-4DD6-BDA6-BF0E001C7FEDQ33881324-8F802319-26A4-41FB-B2BD-1F8BDF4D87C7Q34333041-5DF58887-9E48-4185-BBEB-B239C3EB7485Q34671600-D66DB203-8CCC-45EA-B3BB-B5A377B0BF33Q35330244-C5D14A3F-222E-49D1-B083-AE1D5F86BDA5Q35684591-C47930CE-6C5C-43E9-B5C2-DA387213E95AQ35760495-24924F59-1F91-46C5-ADD6-349F77811F1DQ35890787-B107AB61-0076-4B13-AC48-E8BD98DEA8C1Q35902495-C7636196-85CD-4E5F-A8C8-E67C1618C3B9Q36171101-1A8E989F-7E2D-4596-B962-86399C267F8BQ36434866-61972471-D93D-468A-8277-7ABFC2D19A3CQ36740212-7632C452-A93A-4788-8FE9-A3FCA0F938B8Q38713112-F62B14EA-B7C0-4DB2-BEEA-CEF0DEF6A591Q38934481-A1B0A5E3-BB81-43F7-9B4B-5B21FE7F30F1Q39470999-DF23E199-A6BE-4061-B8DB-5023DA304AE8Q41589355-98D5F9D7-FF83-4DFC-9244-F6E3176CDB8DQ46293989-3BEB1F29-D70B-4719-9315-B93D280195F0Q46337419-D106E23B-4CF2-4164-A499-9560E4C7B118Q47221084-5FD702D4-1092-4FEA-B348-EDE23CC4D53FQ47356726-B7AE4BF0-55DA-4134-8121-BA938582FFDFQ48310974-2B2554B1-C23E-4409-9D4A-816A91E461B1Q55513249-1BF99868-E4FF-46C6-9F73-4FE52D168A9BQ58077312-6BE4E299-4F46-422A-BC19-67C11C8D845D
P2860
LegumeIP: an integrative database for comparative genomics and transcriptomics of model legumes
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@ast
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@en
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@nl
type
label
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@ast
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@en
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@nl
prefLabel
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@ast
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@en
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@nl
P2093
P2860
P3181
P356
P1476
LegumeIP: an integrative datab ...... anscriptomics of model legumes
@en
P2093
Patrick Xuechun Zhao
Tingsong Liu
Xinbin Dai
P2860
P304
P3181
P356
10.1093/NAR/GKR939
P407
P433
Database issue
P577
2012-01-01T00:00:00Z