Accession |
PRJCA001484 |
Title |
The melocular mechanism of populus response to Marssonina brunnea |
Relevance |
Forestry |
Data types |
Transcriptome or Gene expression
|
Organisms |
Populus tomentosa
|
Description |
To elucidate the potential molecular mechanism of plant-pathogen interaction during the biotrophic phase, we performed a comprehensive time-course infection experiment to analyze host-pathogen transcriptomes to dissect the regulatory network underlying the transcriptional response to the infection. we combined transcriptome and association genetics to elucidents the potential molecular mechanisms of populus against Marssonina brunnea, and further analyzed the association between the underlying resistance genes with plant photosynthesis, growth, and wood quality traits. |
Sample scope |
Monoisolate |
Release date |
2021-04-28 |
Publication |
PubMed ID |
Article title |
Journal name |
DOI |
Year |
32392451
|
Key Genes and Genetic Interactions of Plant-Pathogen Functional Modules in Poplar Infected by Marssonina brunnea
|
Molecular Plant-Microbe Interactions
|
10.1094/MPMI-11-19-0325-R
|
2020
|
34122520
|
Genome-Wide Analysis of Coding and Non-coding RNA Reveals a Conserved miR164-NAC-mRNA Regulatory Pathway for Disease Defense in Populus
|
Frontiers in Genetics
|
10.3389/fgene.2021.668940
|
2021
|
|
Grants |
Agency |
program |
Grant ID |
Grant title |
National Natural Science Foundation of China (NSFC)
|
|
N/A
|
|
|
Submitter |
Sisi
Chen (sisichen@bjfu.edu.cn)
|
Organization |
Beijing Forestry University |
Submission date |
2019-06-04 |