about
Whole-genome DNA methylation patterns and complex associations with gene structure and expression during flower development in Arabidopsis.The DYT1-interacting proteins bHLH010, bHLH089 and bHLH091 are redundantly required for Arabidopsis anther development and transcriptome.Evolution and protein interactions of AP2 proteins in Brassicaceae: Evidence linking development and environmental responses.Feedback Regulation of DYT1 by Interactions with Downstream bHLH Factors Promotes DYT1 Nuclear Localization and Anther Development.Abundant protein phosphorylation potentially regulates Arabidopsis anther development.Alternative splicing during Arabidopsis flower development results in constitutive and stage-regulated isoforms.The evolution of microRNAs in plants.MID1 plays an important role in response to drought stress during reproductive development.Proteomic and phosphoproteomic analyses reveal extensive phosphorylation of regulatory proteins in developing rice anthers.Conservation and divergence of small RNA pathways and microRNAs in land plants.APETALA2 antagonizes the transcriptional activity of AGAMOUS in regulating floral stem cells in Arabidopsis thaliana.Transcriptome Profiling Reveals the Negative Regulation of Multiple Plant Hormone Signaling Pathways Elicited by Overexpression of C-Repeat Binding FactorsThe Arabidopsis MOS4-associated Complex Promotes MicroRNA Biogenesis and Precursor Messenger RNA Splicing.Comparative epigenomics reveals evolution of duplicated genes in potato and tomato.Cytological and Transcriptomic Analyses Reveal Important Roles of CLE19 in Pollen Exine Formation.Structural and biochemical insights into small RNA 3' end trimming by Arabidopsis SDN1The PROTEIN PHOSPHATASE4 Complex Promotes Transcription and Processing of Primary microRNAs in ArabidopsisDNA methylome analysis provides evidence that the expansion of the tea genome is linked to TE burstsGenome-Wide Transcript and Small RNA Profiling Reveals Transcriptomic Responses to Heat Stress
P50
Q33359443-16836AF3-2650-460A-A1E1-41861853F27FQ35717831-31ACA408-DB04-4DA6-8C1F-D50C8910A511Q35809652-59E25C89-C1B5-409D-AD1B-E7720CB67017Q35998955-2B03B7DB-E61A-4B58-88FA-76350BCA3B2DQ37238255-151BA5E3-F8DE-494E-8BDF-9FAE40A30494Q37578769-1DC0C754-8D83-42CC-9961-8087CADA4744Q39019534-5F5687BB-626B-48B0-B47C-DAEC1E59344CQ39036744-FBFCB821-1EF2-4E6C-820A-69EF414BB66AQ40549280-9CECE7A5-DA3C-48B1-9730-281DE2635152Q41507162-8232371F-94C6-40E3-BF5C-2620C45683CCQ42153707-577A337C-85F0-42B2-9378-DA8BD55E9256Q42363856-23EBE3AE-B1AD-40C2-B4FF-2F1AE9340BD0Q42777856-42185DD7-EA91-4655-9091-4E6E14318B97Q46015760-97574197-96DF-404B-AADC-F7D243D1C52EQ46306183-BB79E034-E101-4775-BD4D-3483B0D2E23FQ58765312-1BBA0653-4AEA-40D4-B238-32655DD07DFAQ91186211-37925F4B-7443-47C5-931D-95091B3179EEQ91760109-316866FB-76EF-4CFE-B787-68D9F5AD3BE6Q92507463-B03BADA3-D81F-476E-8822-3A811488D23D
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Chenjiang You
@ast
Chenjiang You
@en
Chenjiang You
@es
Chenjiang You
@nl
type
label
Chenjiang You
@ast
Chenjiang You
@en
Chenjiang You
@es
Chenjiang You
@nl
prefLabel
Chenjiang You
@ast
Chenjiang You
@en
Chenjiang You
@es
Chenjiang You
@nl
P106
P31
P496
0000-0002-9935-1892