@Article{phyton.2021.015229,
AUTHOR = {Lin Zhang, Dong Xie, Zhong Bian, Yiting Zou, Han Zhou, Wenlu Cai, Hadi Yeilaghi, Xiaolei Fan, Changquan Zhang, Qiaoquan Liu},
TITLE = {Exploration and Validation of the Potential Downstream Genes Underlying ipa1-2D Locus for Rice Panicle Branching},
JOURNAL = {Phyton-International Journal of Experimental Botany},
VOLUME = {90},
YEAR = {2021},
NUMBER = {3},
PAGES = {773--787},
URL = {http://www.techscience.com/phyton/v90n3/41940},
ISSN = {1851-5657},
ABSTRACT = {In recent years, some super hybrid rice varieties were bred with strong culms and large panicles, which are mainly
contributed by the ipa1-2D locus. A gain-of-function allele of OsSPL14 is the ipa1-2D and it can greatly increase
the panicle primary branch number. However, the key downstream genes mediating this trait variation are not
fully explored. In this study, we developed high-quality near-isogenic lines (NILs) with a difference of only
30 kb chromosomal segment covering the ipa1-2D locus. Using the NILs, we explored the impact of ipa1-2D
on five sequential stages of early inflorescence development, and found that the locus can greatly enhance the
initiation of primary branch meristems. A transcriptomic analysis was performed to unveil the downstream molecular network of ipa1-2D, and 87 genes were found differentially expressed, many of which are involved in metabolism and catalysis processes. In addition, transgenic lines of overexpression and RNA interference were
generated to shape different levels of OsSPL14. They were also used to validate the expression variation explored
by transcriptome. Based on the gene annotation, twelve potential downstream targets of ipa1-2D were selected,
and their expression variation was confirmed by qRT-PCR analysis both in NILs and transgenic lines. This
research expands the molecular network underlying ipa1-2D and provides novel gene information which might
be involved in the control of panicle branching. We discussed the potential function of identified genes and highlighted their values for future function exploration and breeding application.},
DOI = {10.32604/phyton.2021.015229}
}