Kuopeng Wang
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View article: Genome-wide analysis of AhCN genes reveals that AhCN34 is involved in bacterial wilt resistance in peanut
Genome-wide analysis of AhCN genes reveals that AhCN34 is involved in bacterial wilt resistance in peanut Open
View article: Dynamic <scp>N<sup>6</sup></scp>‐methyladenosine <scp>RNA</scp> modification regulates peanut resistance to bacterial wilt
Dynamic <span>N<sup>6</sup></span>‐methyladenosine <span>RNA</span> modification regulates peanut resistance to bacterial wilt Open
Summary N 6 ‐methyladenosine (m 6 A) is the most abundant mRNA modification in eukaryotes and is an important regulator of gene expression as well as many other critical biological processes. However, the characteristics and functions of m…
View article: Coordinated Lipid Mobilization during Seed Development and Germination in Peanut (<i>Arachis hypogaea</i> L.)
Coordinated Lipid Mobilization during Seed Development and Germination in Peanut (<i>Arachis hypogaea</i> L.) Open
Peanut (Arachis hypogaea L.) is one of the most important oil crops in the world due to its lipid-rich seeds. Lipid accumulation and degradation play crucial roles in peanut seed maturation and seedling establishment, respectively. …
View article: <i>PSW1</i>, an LRR receptor kinase, regulates pod size in peanut
<i>PSW1</i>, an LRR receptor kinase, regulates pod size in peanut Open
Summary Pod size is a key agronomic trait that greatly determines peanut yield, the regulatory genes and molecular mechanisms that controlling peanut pod size are still unclear. Here, we used quantitative trait locus analysis to identify a…
View article: Dynamic DNA methylation modification in peanut seed development
Dynamic DNA methylation modification in peanut seed development Open
Cytosine methylation is an important epigenetic modification involved in regulation of plant development. However, the epigenetic mechanisms governing peanut seed development remain unclear. Herein, we generated DNA methylation profiles of…