Plant Biochemistry in the Era of Omics: Integrated Omics Approaches to Unravel the Genetic Basis of Plant Stress Tolerance
文献类型: 外文期刊
第一作者: Sarfraz, Zareen
作者: Sarfraz, Zareen;Iqbal, Muhammad Shahid;Zarlashat, Yusra;Ambreen, Alia;Mujahid, Muhammad;Iqbal, Muhammad Sajid;Fatima, Syeda Akash;Iqbal, Rashid;Iqbal, Rashid;Fiaz, Sajid
作者机构:
关键词: climate-resilient crops; crop improvement; food security; gene expression; genomics; plant stress adaptation; transcriptomics
期刊名称:PLANT BREEDING ( 影响因子:1.8; 五年影响因子:2.0 )
ISSN: 0179-9541
年卷期: 2025 年
页码:
收录情况: SCI
摘要: The challenge of feeding the world's growing population is impaired by declining arable land, water quality and erratic weather patterns due to climate change. Abiotic stresses such as drought, heat, salinity and cold disrupt plant growth, reducing crop yields and quality. Modern biotechnological tools including high-throughput sequencing and bioinformatics have enabled the characterization of plant stress responses through advanced "omics" technologies. Genomics, transcriptomics, proteomics, metabolomics and epigenomics describe molecular mechanisms underlying plant stress tolerance. Integrating multi-omics approaches provides a deeper understanding of these mechanisms, addressing the limitations of single-omics studies. The combination of multi-omics data (genomics, transcriptomics, proteomics and metabolomics) identifies important biomarkers, regulatory networks and genetic targets that enhance plant stress resilience. This multi-omics information regarding plants is crucial for genome-assisted breeding (GAB) to improve crop traits and the development of climate-resilient crops to withstand environmental challenges. Therefore, researchers use multi-omics pipelines to enhance productive crops, quality and stress tolerance, solving global food security challenges caused by climate change and environmental stressors. This review discusses the role of omics technologies in describing the genetic mechanisms of plant stress responses and explores how this information is applied to enhance crop resilience and productivity, which leads to improved crops. The application of combining omics approaches to develop next-generation crops that are capable of thriving under adverse environmental conditions, ensuring reliable and safe food supply for the future under stress conditions.
分类号:
- 相关文献
作者其他论文 更多>>
-
Global distribution and sustainable management of Asian corn borer (ACB), Ostrinia furnacalis (Lepidoptera: Crambidae): recent advancement and future prospects
作者:Abbas, Arzlan;Alam, Aleena;Abbas, Sohail;Dara, Muhammad Zulqar Nain;Ali, Jamin;Ri Zhao, Chen;Saddam, Babu;Ullah, Farman;Hassan, Muhammad Asghar;Hassan, Muhammad Asghar;Shoukat, Komal;Hafeez, Faisal;Ghramh, Hamed A.;Ghramh, Hamed A.;Khan, Khalid Ali;Ghramh, Hamed A.;Khan, Khalid Ali;Khan, Khalid Ali;Iqbal, Rashid;Iqbal, Rashid
关键词:Asian corn borer; biology; ecology; globalisation; invasiveness
-
A novel transcription factor OsMYB73 affects grain size and chalkiness by regulating endosperm storage substances' accumulation-mediated auxin biosynthesis signalling pathway in rice
作者:Liu, Song;Wu, Jiamin;Mawia, Amos Musyoki;Wei, Xiangjin;Cao, Ruijie;Jiao, Guiai;Wu, Yawen;Zhang, Jian;Xie, Lihong;Sheng, Zhonghua;Hu, Shikai;Li, Sanfeng;Lv, Yusong;Lu, Feifei;Chen, Yujuan;Fiaz, Sajid;Tabassum, Javaria;Du, Zhimin;Shao, Gaoneng;Hu, Peisong;Tang, Shaoqing;Liu, Song;Gao, Fangyuan;Ren, Guangjun;Fiaz, Sajid
关键词:
OsMYB73 ; endosperm starch and lipid biosynthesis; auxin biosynthesis; grain filling and endosperm development; grain size and chalkiness; yield and quality -
Characterization of brown rust resistance in bread wheat using yield related morphological indices
作者:Iqbal, Anum;Alam, Beena;Iqbal, Rashid;Iqbal, Rashid;Binobead, Manal Abdulaziz;Elshikh, Mohamed S.;Izgu, Tolga;Ahmed, Temoor;Ahmed, Temoor
关键词:Correlation; Diversity; Leaf rust; Morphological traits; Wheat genotypes; Disease resistance
-
Advancing Regional Adaptation and Nitrogen Stress Resilience Through Integrative Phenotyping of Watkins Wheat Landraces via Source-Sink Dynamics
作者:Waheed, Abdul;Iqbal, Muhammad Shahid;Sarfraz, Zareen;Wei, Yanping;Hou, Junliang;Song, Bo;Cheng, Shifeng;Li, Sixing
关键词:genetic diversity; nitrogen use efficiency; climate resilience; biomass partitioning; sustainable breeding
-
Enhancing salt tolerance and yield potential in cotton: insights from physiological responses, genetic variability, and heterosis
作者:Zafar, Muhammad Mubashar;Jiang, Xuefei;Zafar, Muhammad Mubashar;Zahid, Muhammad;Razzaq, Abdul;Anwar, Zunaira;Ijaz, Aqsa;Iqbal, Muhammad Shahid;Farid, Ghulam;Seleiman, Mahmoud F.;Zaman, Rana Qammar Uz;Rauf, Abdur
关键词:Cotton; salt stress; line x tester; general combining ability (GCA); specific combining ability (SCA); heterosis
-
Bioactive Compounds in Barley Modulating Glycemic Response: Implications for Diabetes Management
作者:Ahmed, Hafiz Ghulam Muhu Din;Ahmed, Hafiz Ghulam Muhu Din;Yang, Xiaomeng;Yang, Jiazhen;Pu, Xiaoying;Li, Xia;Yang, Li'E;Zeng, Yawen;Iqbal, Rashid;Iqbal, Rashid
关键词:Glucose; beta-glucan; functional foods; barley; health benefits; flavonoids; bioactivity
-
Transcriptome dynamics along with expression analysis of key genes involved in fiber development between Gossypium barbadense and Gossypium darwinii
作者:Ditta, Allah;Cai, Xiaoyan;Shehzad, Muhammad;Xu, Yanchao;Hou, Yuqing;Ijaz, Aqsa;Liu, Fang;Wang, Kunbo;Zhou, Zhongli;Ditta, Allah;Khan, Muhammad Kashif Riaz;Ditta, Allah;Anwar, Zunaira;Khan, Muhammad Kashif Riaz;Fiaz, Sajid;Al-Saud, Najla B. S.;Ramadan, Ahmed M.;Al-Saud, Najla B. S.;Wang, Baohua;Zhang, Baohong
关键词:Single sequence repeats; Fiber development; Transcriptome profile; Gene Functions; DPAs
