Rice UCL8, a Plantacyanin Gene Targeted by MiR408, Regulates Fertility by Controlling Pollen Tube Germination and Growth

Overview

Journal Rice (N Y)

Date 2018 Nov 21

PMID 30456598

Citations 10

Authors

Fan Zhang

Yu-Chan Zhang

Jin-Ping Zhang

Yang Yu

Yan-Fei Zhou

Yan-Zhao Feng

Yu-Wei Yang

Meng-Qi Lei

Huang He

Jian-Pin Lian

Yue-Qin Chen

Affiliations

Soon will be listed here.

Abstract

Background: Pollen tube formation and growth are crucial steps that lead to seed production. Despite the importance of pollen tube growth, the molecular mechanisms implicated in its spatial and temporal control are not fully known. In this study, we found an uclacyanin gene, OsUCL8, that regulates pollen intine deposition and pollen tube growth.

Findings: The overexpression of OsUCL8 led to a striking irregularity in pollen tube growth and pollination and thus affected the seed setting rate in rice; many pollen tubes appeared to lose the ability to grow directly into the style. Conversely, plants with OsUCL8 knocked out and plants overexpressing miR408, a negative regulator of OsUCL8, had vigorous pollens with a higher germination rate. We further demonstrated that OsUCL8 mainly affects pollen intine formation. The addition of Vitamin B1 (VB1) significantly contributed to the germination of OXUCL8 pollen grains, suggesting that OsUCL8 could be associated with VB1 production. Using a yeast two-hybrid system, we revealed that OsUCL8 interacts with the protein OsPKIWI, a homolog of the Arabidopsis FNRL protein. We thus hypothesized that OsUCL8 might regulate the production of VB components by interacting with OsPKIWI. This study revealed a novel molecular mechanism of pollen tube growth regulation.

Conclusions: The rice plantacyanin family member OsUCL8 plays an important role in pollen tube formation and growth and, in turn, regulates fertility and the seed setting rate.

Citing Articles

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Switching action modes of miR408-5p mediates auxin signaling in rice.

Rong F, Lv Y, Deng P, Wu X, Zhang Y, Yue E Nat Commun. 2024; 15(1):2525.

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Cytological observation and RNA-seq analysis reveal novel miRNAs high expression associated with the pollen fertility of neo-tetraploid rice.

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