Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars

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Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars. / Anum, Jazba; O'Shea, Charlotte; Hyder, M. Zeeshan; Farrukh, Sumaira; Skriver, Karen; Malik, Saad Imran; Yasmin, Tayyaba.

I: Molecular Biology Reports, Bind 49, Nr. 1, 2022, s. 293-302.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Anum, J, O'Shea, C, Hyder, MZ, Farrukh, S, Skriver, K, Malik, SI & Yasmin, T 2022, 'Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars', Molecular Biology Reports, bind 49, nr. 1, s. 293-302. https://doi.org/10.1007/s11033-021-06871-3

APA

Anum, J., O'Shea, C., Hyder, M. Z., Farrukh, S., Skriver, K., Malik, S. I., & Yasmin, T. (2022). Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars. Molecular Biology Reports, 49(1), 293-302. https://doi.org/10.1007/s11033-021-06871-3

Vancouver

Anum J, O'Shea C, Hyder MZ, Farrukh S, Skriver K, Malik SI o.a. Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars. Molecular Biology Reports. 2022;49(1):293-302. https://doi.org/10.1007/s11033-021-06871-3

Author

Anum, Jazba ; O'Shea, Charlotte ; Hyder, M. Zeeshan ; Farrukh, Sumaira ; Skriver, Karen ; Malik, Saad Imran ; Yasmin, Tayyaba. / Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars. I: Molecular Biology Reports. 2022 ; Bind 49, Nr. 1. s. 293-302.

Bibtex

@article{20e6cceb5d8849f182f1f77a76ef5738,
title = "Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars",
abstract = "Background: Germin-like proteins (GLPs) are ubiquitous plant proteins, which play significant role in plant responses against various abiotic stresses. However, the potential functions of GLPs in rice (Oryza sativa) against salt and drought stress are still unclear. Methods and results: In this study, transcriptional variation of eight OsGLP genes (OsGLP3-6, OsGLP4-1, OsGLP8-4, OsGLP8-7, OsGLP8-10, OsGLP8-11 and OsGLP8-12) was analyzed in leaves and roots of two economically important Indica rice cultivars, KS282 and Super Basmati, under salt and drought stress at early seedling stage. The relative expression analysis from qRT-PCR indicated the highest increase in expression of OsGLP3-6 in leaves and roots of both rice varieties with a significantly higher expression in KS282. Moreover, relative change in expression of OsGLP8-7, OsGLP8-10 and OsGLP8-11 under salt stress and OsGLP8-7 under drought stress was also commonly higher in leaves and roots of KS282 as compared to Super Basmati. Whereas, OsGLP3-7 and OsGLP8-12 after salt stress and OsGLP8-4 and OsGLP8-12 after drought stress were observed with higher relative expression in roots of Super Basmati than KS282. Importantly, the OsGLP3-6 and OsGLP4-1 from chromosome 3 and 4 respectively showed higher expression in leaves whereas most of the OsGLP genes from chromosome 8 exhibited higher expression in roots. Conclusion: Overall, as a result of this comparative analysis, OsGLP genes showed both general and specific expression profiles depending upon a specific rice variety, stress condition as well as tissue type. These results will increase our understanding of role of OsGLP genes in rice crop and provide useful information for the further in-depth research on their regulatory mechanisms in response to these stress conditions.",
keywords = "Abiotic stress, Expression profiling, Germin-like proteins, Oryza sativa",
author = "Jazba Anum and Charlotte O'Shea and Hyder, {M. Zeeshan} and Sumaira Farrukh and Karen Skriver and Malik, {Saad Imran} and Tayyaba Yasmin",
note = "Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to Springer Nature B.V.",
year = "2022",
doi = "10.1007/s11033-021-06871-3",
language = "English",
volume = "49",
pages = "293--302",
journal = "Molecular Biology Reports",
issn = "0301-4851",
publisher = "Springer",
number = "1",

}

RIS

TY - JOUR

T1 - Germin like protein genes exhibit modular expression during salt and drought stress in elite rice cultivars

AU - Anum, Jazba

AU - O'Shea, Charlotte

AU - Hyder, M. Zeeshan

AU - Farrukh, Sumaira

AU - Skriver, Karen

AU - Malik, Saad Imran

AU - Yasmin, Tayyaba

N1 - Publisher Copyright: © 2021, The Author(s), under exclusive licence to Springer Nature B.V.

PY - 2022

Y1 - 2022

N2 - Background: Germin-like proteins (GLPs) are ubiquitous plant proteins, which play significant role in plant responses against various abiotic stresses. However, the potential functions of GLPs in rice (Oryza sativa) against salt and drought stress are still unclear. Methods and results: In this study, transcriptional variation of eight OsGLP genes (OsGLP3-6, OsGLP4-1, OsGLP8-4, OsGLP8-7, OsGLP8-10, OsGLP8-11 and OsGLP8-12) was analyzed in leaves and roots of two economically important Indica rice cultivars, KS282 and Super Basmati, under salt and drought stress at early seedling stage. The relative expression analysis from qRT-PCR indicated the highest increase in expression of OsGLP3-6 in leaves and roots of both rice varieties with a significantly higher expression in KS282. Moreover, relative change in expression of OsGLP8-7, OsGLP8-10 and OsGLP8-11 under salt stress and OsGLP8-7 under drought stress was also commonly higher in leaves and roots of KS282 as compared to Super Basmati. Whereas, OsGLP3-7 and OsGLP8-12 after salt stress and OsGLP8-4 and OsGLP8-12 after drought stress were observed with higher relative expression in roots of Super Basmati than KS282. Importantly, the OsGLP3-6 and OsGLP4-1 from chromosome 3 and 4 respectively showed higher expression in leaves whereas most of the OsGLP genes from chromosome 8 exhibited higher expression in roots. Conclusion: Overall, as a result of this comparative analysis, OsGLP genes showed both general and specific expression profiles depending upon a specific rice variety, stress condition as well as tissue type. These results will increase our understanding of role of OsGLP genes in rice crop and provide useful information for the further in-depth research on their regulatory mechanisms in response to these stress conditions.

AB - Background: Germin-like proteins (GLPs) are ubiquitous plant proteins, which play significant role in plant responses against various abiotic stresses. However, the potential functions of GLPs in rice (Oryza sativa) against salt and drought stress are still unclear. Methods and results: In this study, transcriptional variation of eight OsGLP genes (OsGLP3-6, OsGLP4-1, OsGLP8-4, OsGLP8-7, OsGLP8-10, OsGLP8-11 and OsGLP8-12) was analyzed in leaves and roots of two economically important Indica rice cultivars, KS282 and Super Basmati, under salt and drought stress at early seedling stage. The relative expression analysis from qRT-PCR indicated the highest increase in expression of OsGLP3-6 in leaves and roots of both rice varieties with a significantly higher expression in KS282. Moreover, relative change in expression of OsGLP8-7, OsGLP8-10 and OsGLP8-11 under salt stress and OsGLP8-7 under drought stress was also commonly higher in leaves and roots of KS282 as compared to Super Basmati. Whereas, OsGLP3-7 and OsGLP8-12 after salt stress and OsGLP8-4 and OsGLP8-12 after drought stress were observed with higher relative expression in roots of Super Basmati than KS282. Importantly, the OsGLP3-6 and OsGLP4-1 from chromosome 3 and 4 respectively showed higher expression in leaves whereas most of the OsGLP genes from chromosome 8 exhibited higher expression in roots. Conclusion: Overall, as a result of this comparative analysis, OsGLP genes showed both general and specific expression profiles depending upon a specific rice variety, stress condition as well as tissue type. These results will increase our understanding of role of OsGLP genes in rice crop and provide useful information for the further in-depth research on their regulatory mechanisms in response to these stress conditions.

KW - Abiotic stress

KW - Expression profiling

KW - Germin-like proteins

KW - Oryza sativa

U2 - 10.1007/s11033-021-06871-3

DO - 10.1007/s11033-021-06871-3

M3 - Journal article

C2 - 34725746

AN - SCOPUS:85118385268

VL - 49

SP - 293

EP - 302

JO - Molecular Biology Reports

JF - Molecular Biology Reports

SN - 0301-4851

IS - 1

ER -

ID: 286623224