CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
about
Apple miRNAs and tasiRNAs with novel regulatory networksExperimental strategies for microRNA target identificationstarBase: a database for exploring microRNA-mRNA interaction maps from Argonaute CLIP-Seq and Degradome-Seq dataSmall RNAs in Plant Responses to Abiotic Stresses: Regulatory Roles and Study MethodsIdentification and Functional Analysis of microRNAs Involved in the Anther Development in Cotton Genic Male Sterile Line Yu98-8AFinding microRNA targets in plants: current status and perspectivesRole of bioinformatics in establishing microRNAs as modulators of abiotic stress responses: the new revolutionDeep sequencing reveals important roles of microRNAs in response to drought and salinity stress in cottonIdentification of microRNA targets in tomato fruit development using high-throughput sequencing and degradome analysisIdentification of drought-responsive and novel Populus trichocarpa microRNAs by high-throughput sequencing and their targets using degradome analysisArabidopsis lyrata small RNAs: transient MIRNA and small interfering RNA loci within the Arabidopsis genusIdentification of Ice Plant (Mesembryanthemum crystallinum L.) MicroRNAs Using RNA-Seq and Their Putative Roles in High Salinity Responses in SeedlingssPARTA: a parallelized pipeline for integrated analysis of plant miRNA and cleaved mRNA data sets, including new miRNA target-identification softwareIdentification and Characterization of Salvia miltiorrhizain miRNAs in Response to Replanting DiseaseGenome-wide identification and functional analysis of lincRNAs acting as miRNA targets or decoys in maize.Beyond cleaved small RNA targets: unraveling the complexity of plant RNA degradome data.Comprehensive analysis of small RNA-seq data reveals that combination of miRNA with its isomiRs increase the accuracy of target prediction in Arabidopsis thaliana.Identification of miRNAs and their target genes in developing soybean seeds by deep sequencing.Identification of soybean seed developmental stage-specific and tissue-specific miRNA targets by degradome sequencing.Identification of microRNAs Involved in Regeneration of the Secondary Vascular System in Populus tomentosa Carr.GmDREB1 overexpression affects the expression of microRNAs in GM wheat seeds.Management of High-Throughput DNA Sequencing Projects: Alpheus.Whole-genome discovery of miRNAs and their targets in wheat (Triticum aestivum L.).Identification of Salt Tolerance-related microRNAs and Their Targets in Maize (Zea mays L.) Using High-throughput Sequencing and Degradome Analysis.Parallel analysis of RNA ends enhances global investigation of microRNAs and target RNAs of Brachypodium distachyon.Global gene expression defines faded whorl specification of double flower domestication in CamelliaAllelic Interactions among Pto-MIR475b and Its Four Target Genes Potentially Affect Growth and Wood Properties in Populus.Domestication of transposable elements into MicroRNA genes in plantsStars and symbiosis: microRNA- and microRNA*-mediated transcript cleavage involved in arbuscular mycorrhizal symbiosis.Identification of miRNAs and their target genes using deep sequencing and degradome analysis in trifoliate orange [Poncirus trifoliata L. Raf] [corrected].Genome-wide identification of Medicago truncatula microRNAs and their targets reveals their differential regulation by heavy metal.SoMART: a web server for plant miRNA, tasiRNA and target gene analysis.Comparative analysis of miRNAs and their targets across four plant species.Exploring microRNA-like small RNAs in the filamentous fungus Fusarium oxysporumGenome-wide comparison of microRNAs and their targeted transcripts among leaf, flower and fruit of sweet orange.Multiple distinct small RNAs originate from the same microRNA precursorsIdentification of wounding and topping responsive small RNAs in tobacco (Nicotiana tabacum).A combined approach of high-throughput sequencing and degradome analysis reveals tissue specific expression of microRNAs and their targets in cucumber.Uncovering small RNA-mediated responses to cold stress in a wheat thermosensitive genic male-sterile line by deep sequencing.Genome-wide search for miRNA-target interactions in Arabidopsis thaliana with an integrated approach
P2860
Q21184001-8CFD9895-47B2-43E1-A52C-2C58FCAB6FB8Q24603494-8D42D3D7-198D-4957-B166-24C80BCBF821Q24615562-420CF13F-FE5A-4B29-A083-2F41542EBEEAQ26779005-00932EF9-5CB1-4016-B05E-1D0200449E5BQ28596810-AA18BB94-9BD1-4269-8BDD-CB8A228B003DQ28597863-98C6D8B3-E69D-4906-BA22-69DDD7F142F1Q28608474-548C8F51-0E27-4E19-B521-E71988A72695Q28650258-E36C1251-3BF8-4584-93B1-7B1A3337C343Q28706418-58C4FA3E-D61C-459B-A695-8EC37D038AD7Q28708946-7ABE280F-3A66-4054-915D-40EF9625273CQ28751812-64C97E01-9F0B-4124-B956-E608DAE67722Q28831082-5CFE5748-A599-4346-AD1C-5552E78D21BDQ30000664-861DD128-2EBC-4028-B90F-BF95E894674DQ30382262-8AFC7F51-F007-489C-832B-1011113FFE3EQ30387313-477C94DF-7459-4F0C-9C97-F1B79E064D29Q30729776-24F37FD2-CF13-48EF-9C27-A0BC47663ACDQ30886482-3B341A19-660A-4237-A58C-91DE51264136Q30995522-319CAA4F-043C-4A97-9783-B7253826E810Q31073629-B9501076-AB33-4868-BF8E-FE7B61CCC74DQ33363352-583AA16D-0B69-4CF5-BCA1-009EE2F76F0AQ33620939-7E634578-2DC7-4E1C-A50B-D3594C4452A4Q33642979-728FCC46-1DA7-4E8B-B3A1-885307865529Q33721954-BE6A5F92-BD65-4FA0-8EC6-C6EED9D5C328Q33729568-40A78841-7D24-4EF1-97C3-B14FE91F0A03Q33742518-02C41AB1-80B0-4CF9-A24D-6883B227E230Q33784424-5172550D-AB92-4FCC-87C5-70680C608C35Q33820113-97A628F1-1B5E-4977-92FD-E20534078E18Q33894690-07BA5928-9A23-4AA8-B1E3-411E99185D2BQ33899783-7E77B2FE-460E-477D-9B01-541E10A74B22Q33973671-FC510924-13E1-415D-834B-0477C48A521EQ34012156-D9E15EBC-C90F-4819-83CB-F5BC3F9101AAQ34030344-FC9B192F-78F7-42DF-A559-B75AEAABB4D2Q34070025-2A8F0EE3-F15C-46A7-961B-6448F5641625Q34070728-A9721B28-7C2E-45EA-ADC1-20D955D9C924Q34151098-CE1313BF-E39F-4E38-B8B9-0552CA5BEDB2Q34156136-E494F189-F123-4C2D-B2AF-757A462D3B5AQ34165481-88B36892-8893-404C-B441-9A72DAC7E22AQ34221281-35C7417F-8FAA-4334-8C7B-2DCEB637CFE1Q34234798-C631BA06-11D0-4CB1-AB9A-C99CFB22FD43Q34324853-0F13E7ED-6698-4EC2-990F-38A3E979079C
P2860
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
description
2008 nî lūn-bûn
@nan
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
@ast
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
@en
type
label
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
@ast
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
@en
prefLabel
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
@ast
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
@en
P2860
P356
P1433
P1476
CleaveLand: a pipeline for using degradome data to find cleaved small RNA targets
@en
P2093
Michael J Axtell
P2860
P304
P356
10.1093/BIOINFORMATICS/BTN604
P407
P577
2008-11-18T00:00:00Z