The 10th Asian Crop Science Association Conference

Presentation information

Oral sessions

Crop Genetics and Physiology » O42: Assimilate Partitioning for Crop Productivity and Quality

[O42] Assimilate Partitioning for Crop Productivity and Quality

Thu. Sep 9, 2021 2:30 PM - 4:30 PM Room 4 (Oral) (Crop Genetics and Physiology)

Chair: Naohiro Aoki (The University of Tokyo, Japan)
Chair: Tatsuro Hirose (Takasaki University of Health and Welfare, Japan)
Chair: Yong-Ling Ruan (The University of Newcastle, Australia)

3:25 PM - 3:40 PM

[O42-04] What Factor Affects Genotypic Difference in Endophytic Nitrogen-fixing Ability in Rice?

*Nominated for Presentation Awards

Takanori Okamoto1, Rina Shinjo1, Arisa Nishihara2, Kazuma Uesaka3, Aiko Tanaka1, Daisuke Sugiura1, Motohiko Kondo1 (1.Graduate School of Bioagricultural Sciences, Nagoya University, Japan, 2.Bioproduction Research Institute, National Institute of Advanced Industrial Science and Technology, Japan, 3.The Center for Gene Research, Nagoya University, Japan)

Enhancement of nitrogen (N) fixing ability by endophytic bacteria in rice could lead to improving N utilization under low available N conditions. Endophytic N-fixing bacteria need a lot of energy to fix atmospheric N. However, it is unknown what carbon source and bacteria would affect N-fixing activity in rice. This study aimed to explore the effects of non-structural carbohydrates (NSC) on the N-fixing activity and the endophytic bacterial flora in field-grown rice.
Field experiments were conducted at the Togo field of Nagoya University in 2017 & 2018. Six varieties were grown in 2017, and eight varieties and two mutant lines of Nipponbare (agpl1 and lse1, each with different compositions of NSC) were grown in 2018. Acetylene reduction activity (ARA; the N-fixing activity) and NSC (glucose, sucrose and starch) concentrations in rice stems were determined at the heading stage. For the bacterial flora analysis, total DNA were extracted from the stems of three varieties and one mutant grown in 2018. Two genes were amplified by a primer set of 16S rRNA gene and nitrogenase (nifH) gene-specific primers (PolF/PolR) using Illumina MiSeq.
CG14 and agpl1 mutant with higher sugar concentration showed higher ARA than Leafstar with higher starch concentration. These results suggest that stem ARA was influenced by the levels of soluble sugars. Bacterial flora analysis suggested the presence of variety and line-specific bacterial flora in both 16S rRNA and nifH genes. We will further discuss a new strategy for enhancing N-fixing ability in rice.