Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice

Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice

Abstract Background Senescence affects the quality and yield of plants by regulating different traits of plants. A few members of S40 gene family, the barley HvS40 and the Arabidopsis AtS40–3, have been shown to play a role in leaf senescence in Barley and Arabidopsis. Although we previously reporte...

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Main Authors: Xiangzi Zheng, Muhammad Jehanzeb, Habiba, Yuanyuan Zhang, Li Li, Ying Miao
Format: Article
Language:English
Published: BMC 2019-05-01
Series:BMC Plant Biology
Subjects:
S40 protein family
Leaf senescence
Rice
Expression profiling
Environmental cues
Online Access:http://link.springer.com/article/10.1186/s12870-019-1767-1
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spelling doaj-8a0c6f5695f34ef697173240af43b8672020-11-25T02:01:33ZengBMCBMC Plant Biology1471-22292019-05-0119111810.1186/s12870-019-1767-1Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in riceXiangzi Zheng0Muhammad Jehanzeb1Habiba2Yuanyuan Zhang3Li Li4Ying Miao5Fujian Provincial Key Laboratory of Plant Functional Biology, College of Life Sciences, Fujian Agriculture & Forestry UniversityFujian Provincial Key Laboratory of Plant Functional Biology, College of Life Sciences, Fujian Agriculture & Forestry UniversityFujian Provincial Key Laboratory of Plant Functional Biology, College of Life Sciences, Fujian Agriculture & Forestry UniversityFujian Provincial Key Laboratory of Plant Functional Biology, College of Life Sciences, Fujian Agriculture & Forestry UniversityFujian Provincial Key Laboratory of Plant Functional Biology, College of Life Sciences, Fujian Agriculture & Forestry UniversityFujian Provincial Key Laboratory of Plant Functional Biology, College of Life Sciences, Fujian Agriculture & Forestry UniversityAbstract Background Senescence affects the quality and yield of plants by regulating different traits of plants. A few members of S40 gene family, the barley HvS40 and the Arabidopsis AtS40–3, have been shown to play a role in leaf senescence in Barley and Arabidopsis. Although we previously reported that S40 family exist in most of plants, up to now, no more function of S40 members in plant has been demonstrated. The aim of this study was to provide the senescence related information of S40 gene family in rice as rice is a major crop that feeds about half of the human population in the world. Results A total of 16 OsS40 genes were identified from the genome database of Oryza sativa L. japonica by bioinformatics analysis. Phylogenetic analysis reveals that the 16 OsS40 proteins are classified into five groups, and 4 of the 16 members belong to group I to which also the HvS40 and AtS40–3 is assigned. S40 genes of rice show high structural similarities, as 13 out of the 16 genes have no intron and the other 3 genes have only 1 or 2 introns. The expression patterns of OsS40 genes were analyzed during natural as well as stress-induced leaf senescence in correspondence with senescence marker genes. We found that 6 of them displayed differential but clearly up-regulated transcript profiles under diverse situations of senescence, including darkness, nitrogen deficiency, hormone treatments as well as pathogen infection. Furthermore, three OsS40 proteins were identified as nuclear located proteins by transient protoplast transformation assay. Conclusions Taking all findings together, we concluded that OsS40–1, OsS40–2, OsS40–12 and OsS40–14 genes have potential regulatory function of crosstalk among abiotic, biotic and developmental senescence in rice. Our results provide valuable baseline for functional validation studies of the rice S40 genes in rice leaf senescence.http://link.springer.com/article/10.1186/s12870-019-1767-1S40 protein familyLeaf senescenceRiceExpression profilingEnvironmental cues
collection DOAJ
language English
format Article
sources DOAJ
author Xiangzi Zheng
Muhammad Jehanzeb
Habiba
Yuanyuan Zhang
Li Li
Ying Miao
spellingShingle Xiangzi Zheng
Muhammad Jehanzeb
Habiba
Yuanyuan Zhang
Li Li
Ying Miao
Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice
BMC Plant Biology
S40 protein family
Leaf senescence
Rice
Expression profiling
Environmental cues
author_facet Xiangzi Zheng
Muhammad Jehanzeb
Habiba
Yuanyuan Zhang
Li Li
Ying Miao
author_sort Xiangzi Zheng
title Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice
title_short Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice
title_full Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice
title_fullStr Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice
title_full_unstemmed Characterization of S40-like proteins and their roles in response to environmental cues and leaf senescence in rice
title_sort characterization of s40-like proteins and their roles in response to environmental cues and leaf senescence in rice
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2019-05-01
description Abstract Background Senescence affects the quality and yield of plants by regulating different traits of plants. A few members of S40 gene family, the barley HvS40 and the Arabidopsis AtS40–3, have been shown to play a role in leaf senescence in Barley and Arabidopsis. Although we previously reported that S40 family exist in most of plants, up to now, no more function of S40 members in plant has been demonstrated. The aim of this study was to provide the senescence related information of S40 gene family in rice as rice is a major crop that feeds about half of the human population in the world. Results A total of 16 OsS40 genes were identified from the genome database of Oryza sativa L. japonica by bioinformatics analysis. Phylogenetic analysis reveals that the 16 OsS40 proteins are classified into five groups, and 4 of the 16 members belong to group I to which also the HvS40 and AtS40–3 is assigned. S40 genes of rice show high structural similarities, as 13 out of the 16 genes have no intron and the other 3 genes have only 1 or 2 introns. The expression patterns of OsS40 genes were analyzed during natural as well as stress-induced leaf senescence in correspondence with senescence marker genes. We found that 6 of them displayed differential but clearly up-regulated transcript profiles under diverse situations of senescence, including darkness, nitrogen deficiency, hormone treatments as well as pathogen infection. Furthermore, three OsS40 proteins were identified as nuclear located proteins by transient protoplast transformation assay. Conclusions Taking all findings together, we concluded that OsS40–1, OsS40–2, OsS40–12 and OsS40–14 genes have potential regulatory function of crosstalk among abiotic, biotic and developmental senescence in rice. Our results provide valuable baseline for functional validation studies of the rice S40 genes in rice leaf senescence.
topic S40 protein family
Leaf senescence
Rice
Expression profiling
Environmental cues
url http://link.springer.com/article/10.1186/s12870-019-1767-1
work_keys_str_mv AT xiangzizheng characterizationofs40likeproteinsandtheirrolesinresponsetoenvironmentalcuesandleafsenescenceinrice
AT muhammadjehanzeb characterizationofs40likeproteinsandtheirrolesinresponsetoenvironmentalcuesandleafsenescenceinrice
AT habiba characterizationofs40likeproteinsandtheirrolesinresponsetoenvironmentalcuesandleafsenescenceinrice
AT yuanyuanzhang characterizationofs40likeproteinsandtheirrolesinresponsetoenvironmentalcuesandleafsenescenceinrice
AT lili characterizationofs40likeproteinsandtheirrolesinresponsetoenvironmentalcuesandleafsenescenceinrice
AT yingmiao characterizationofs40likeproteinsandtheirrolesinresponsetoenvironmentalcuesandleafsenescenceinrice
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