Genome-Wide Expression of Transcriptomes and Their Co-Expression Pattern in Subtropical Maize (Zea mays L.) under Waterlogging Stress

A genetic and molecular approach to identify transcription factors controlling maize root adaptive response to water deficit

Nacry, Phillipe, P.
Maillard, M.
Jeudy, Christian
Lamboeuf, Mickael
Bellanger, M.
Dubreuil, P.
Lafarge, S.
Duborjal, H.
Praud, S.
Krouk, G.
Salon, Christophe
Maurel, C.

March 2021

International audienceWater stress is recognized as the most severe abiotic stress for agricultural ...

Differential expression of leaf proteome of tolerant and susceptible maize (Zea mays L.) genotypes in response to multiple abiotic stresses

Rafique, Suphia

February 2019

In the present work, tropical maize genotypes were evaluated for multiple stresses (drought × low-N ...

Analysis of Gene Expression and Physiological Responses in Three Mexican Maize Landraces under Drought Stress and Recovery Irrigation

Hayano-Kanashiro Corina
Calderón-Vázquez Carlos
Ibarra-Laclette Enrique
Herrera-Estrella Luis
Simpson June

October 2009

Drought is one of the major constraints for plant productivity worldwide. Different mechanisms of dr...

Genome-Wide Expression of Transcriptomes and Their Co-Expression Pattern in Subtropical Maize (<i>Zea mays</i> L.) under Waterlogging Stress

Nepolean Thirunavukkarasu (196144)
Firoz Hossain (442474)
Sweta Mohan (442475)
Kaliyugam Shiriga (442476)
Swati Mittal (442477)
Rinku Sharma (442478)
Rita Kumari Singh (442479)
Hari Shankar Gupta (442480)

August 2013

<div><p>Waterlogging causes extensive damage to maize crops in tropical and subtropical regions. The...

Genome-wide expression of transcriptomes and their co-expression pattern in subtropical maize (Zea mays L.) under waterlogging stress.

Nepolean Thirunavukkarasu
Firoz Hossain
Sweta Mohan
Kaliyugam Shiriga
Swati Mittal
Rinku Sharma
Rita Kumari Singh
Hari Shankar Gupta

Waterlogging causes extensive damage to maize crops in tropical and subtropical regions. The identif...

RNAseq revealed the important gene pathways controlling adaptive mechanisms under waterlogged stress in maize

Kanika Arora
Kusuma Kumari Panda
Shikha Mittal
Mallana Gowdra Mallikarjuna
Atmakuri Ramakrishna Rao
Prasanta Kumar Dash
Nepolean Thirunavukkarasu

September 2017

Abstract Waterlogging causes yield penalty in maize-growing countries of subtropical regions. Transc...

Addressing drought tolerance in maize by transcriptional profiling and genetic mapping

MARINO, ROSANNA
P. Maharajah
M.E. Pè
C. Frova
P. Krajewki
M. Gorla

February 2009

In order to unravel the genetic architecture underlying plant response to drought, we adopted an int...

Key Maize Drought-Responsive Genes and Pathways Revealed by Comparative Transcriptome and Physiological Analyses of Contrasting Inbred Lines

Tinashe Zenda
Songtao Liu
Xuan Wang
Guo Liu
Hongyu Jin
Anyi Dong
Yatong Yang
Huijun Duan

March 2019

To unravel the molecular mechanisms underpinning maize (Zea mays L.) drought stress tolerance, we co...

Transcriptome Analysis of Tolerant and Susceptible Maize Genotypes Reveals Novel Insights about the Molecular Mechanisms Underlying Drought Responses in Leaves

Joram Kiriga Waititu
Xingen Zhang
Tianci Chen
Chunyi Zhang
Yang Zhao
Huan Wang

June 2021

Maize (Zea mays L.) is the most essential food crop in the world. However, maize is highly susceptib...

Genome-wide identification of gene expression in contrasting maize inbred lines under field drought conditions reveals the significance of transcription factors in drought tolerance.

Xiaojing Zhang
Xuyang Liu
Dengfeng Zhang
Huaijun Tang
Baocheng Sun
Chunhui Li
Luyang Hao
Cheng Liu
Yongxiang Li
Yunsu Shi
Xiaoqing Xie
Yanchun Song
Tianyu Wang
Yu Li

January 2017

Drought is a major threat to maize growth and production. Understanding the molecular regulation net...

Maize leaves drought-responsive genes revealed by comparative transcriptome of two cultivars during the filling stage.

Hongyu Jin
Songtao Liu
Tinashe Zenda
Xuan Wang
Guo Liu
Huijun Duan

January 2019

Like other important cereal crop in modern agricultural production, maize is also threatened by drou...

Comparative transcriptomic analysis of contrasting hybrid cultivars reveal key drought-responsive genes and metabolic pathways regulating drought stress tolerance in maize at various stages.

Songtao Liu
Tinashe Zenda
Jiao Li
Yafei Wang
Xinyue Liu
Huijun Duan

January 2020

Drought stress is the primary environmental factor that negatively influences plant growth and yield...

Comparative Gene Enrichment Analysis for Drought Tolerance in Contrasting Maize Genotype

Syed Faheem Anjum Gillani
Adnan Rasheed
Asim Abbasi
Yasir Majeed
Musawer Abbas
Muhammad Umair Hassan
Sameer H. Qari
Najat Binothman
Najla Amin T. Al Kashgry
Majid Mahmood Tahir
Yunling Peng

December 2022

Drought stress is a significant abiotic factor influencing maize growth and development. Understandi...

Early Drought-Responsive Genes Are Variable and Relevant to Drought Tolerance

Cheng He
Yicong Du
Junjie Fu
Erliang Zeng
Sunghun Park
Frank White
Jun Zheng
Sanzhen Liu

May 2020

Drought stress is an important crop yield limiting factor worldwide. Plant physiological responses t...

Changes in gene expression in maize kernel in response to water and salt stress

Anđelković, Violeta
Thompson, R

January 2006

Increasing pressure on limited water resources for agriculture, together with the global temperature...

A genetic and molecular approach to identify transcription factors controlling maize root adaptive response to water deficit

Nacry, Phillipe, P.
Maillard, M.
Jeudy, Christian
Lamboeuf, Mickael
Bellanger, M.
Dubreuil, P.
Lafarge, S.
Duborjal, H.
Praud, S.
Krouk, G.
Salon, Christophe
Maurel, C.

March 2021

International audienceWater stress is recognized as the most severe abiotic stress for agricultural ...

Differential expression of leaf proteome of tolerant and susceptible maize (Zea mays L.) genotypes in response to multiple abiotic stresses

Rafique, Suphia

February 2019

In the present work, tropical maize genotypes were evaluated for multiple stresses (drought × low-N ...

Analysis of Gene Expression and Physiological Responses in Three Mexican Maize Landraces under Drought Stress and Recovery Irrigation

Hayano-Kanashiro Corina
Calderón-Vázquez Carlos
Ibarra-Laclette Enrique
Herrera-Estrella Luis
Simpson June

October 2009

Drought is one of the major constraints for plant productivity worldwide. Different mechanisms of dr...

Genome-Wide Expression of Transcriptomes and Their Co-Expression Pattern in Subtropical Maize (<i>Zea mays</i> L.) under Waterlogging Stress

Nepolean Thirunavukkarasu (196144)
Firoz Hossain (442474)
Sweta Mohan (442475)
Kaliyugam Shiriga (442476)
Swati Mittal (442477)
Rinku Sharma (442478)
Rita Kumari Singh (442479)
Hari Shankar Gupta (442480)

August 2013

<div><p>Waterlogging causes extensive damage to maize crops in tropical and subtropical regions. The...

Genome-wide expression of transcriptomes and their co-expression pattern in subtropical maize (Zea mays L.) under waterlogging stress.

Nepolean Thirunavukkarasu
Firoz Hossain
Sweta Mohan
Kaliyugam Shiriga
Swati Mittal
Rinku Sharma
Rita Kumari Singh
Hari Shankar Gupta

Waterlogging causes extensive damage to maize crops in tropical and subtropical regions. The identif...

RNAseq revealed the important gene pathways controlling adaptive mechanisms under waterlogged stress in maize

Kanika Arora
Kusuma Kumari Panda
Shikha Mittal
Mallana Gowdra Mallikarjuna
Atmakuri Ramakrishna Rao
Prasanta Kumar Dash
Nepolean Thirunavukkarasu

September 2017

Abstract Waterlogging causes yield penalty in maize-growing countries of subtropical regions. Transc...

Addressing drought tolerance in maize by transcriptional profiling and genetic mapping

MARINO, ROSANNA
P. Maharajah
M.E. Pè
C. Frova
P. Krajewki
M. Gorla

February 2009

In order to unravel the genetic architecture underlying plant response to drought, we adopted an int...

Key Maize Drought-Responsive Genes and Pathways Revealed by Comparative Transcriptome and Physiological Analyses of Contrasting Inbred Lines

Tinashe Zenda
Songtao Liu
Xuan Wang
Guo Liu
Hongyu Jin
Anyi Dong
Yatong Yang
Huijun Duan

March 2019

To unravel the molecular mechanisms underpinning maize (Zea mays L.) drought stress tolerance, we co...

Transcriptome Analysis of Tolerant and Susceptible Maize Genotypes Reveals Novel Insights about the Molecular Mechanisms Underlying Drought Responses in Leaves

Joram Kiriga Waititu
Xingen Zhang
Tianci Chen
Chunyi Zhang
Yang Zhao
Huan Wang

June 2021

Maize (Zea mays L.) is the most essential food crop in the world. However, maize is highly susceptib...

Genome-wide identification of gene expression in contrasting maize inbred lines under field drought conditions reveals the significance of transcription factors in drought tolerance.

Xiaojing Zhang
Xuyang Liu
Dengfeng Zhang
Huaijun Tang
Baocheng Sun
Chunhui Li
Luyang Hao
Cheng Liu
Yongxiang Li
Yunsu Shi
Xiaoqing Xie
Yanchun Song
Tianyu Wang
Yu Li

January 2017

Drought is a major threat to maize growth and production. Understanding the molecular regulation net...

Maize leaves drought-responsive genes revealed by comparative transcriptome of two cultivars during the filling stage.

Hongyu Jin
Songtao Liu
Tinashe Zenda
Xuan Wang
Guo Liu
Huijun Duan

January 2019

Like other important cereal crop in modern agricultural production, maize is also threatened by drou...

Comparative transcriptomic analysis of contrasting hybrid cultivars reveal key drought-responsive genes and metabolic pathways regulating drought stress tolerance in maize at various stages.

Songtao Liu
Tinashe Zenda
Jiao Li
Yafei Wang
Xinyue Liu
Huijun Duan

January 2020

Drought stress is the primary environmental factor that negatively influences plant growth and yield...

Comparative Gene Enrichment Analysis for Drought Tolerance in Contrasting Maize Genotype

Syed Faheem Anjum Gillani
Adnan Rasheed
Asim Abbasi
Yasir Majeed
Musawer Abbas
Muhammad Umair Hassan
Sameer H. Qari
Najat Binothman
Najla Amin T. Al Kashgry
Majid Mahmood Tahir
Yunling Peng

December 2022

Drought stress is a significant abiotic factor influencing maize growth and development. Understandi...

Early Drought-Responsive Genes Are Variable and Relevant to Drought Tolerance

Cheng He
Yicong Du
Junjie Fu
Erliang Zeng
Sunghun Park
Frank White
Jun Zheng
Sanzhen Liu

May 2020

Drought stress is an important crop yield limiting factor worldwide. Plant physiological responses t...

Changes in gene expression in maize kernel in response to water and salt stress

Anđelković, Violeta
Thompson, R

January 2006

Increasing pressure on limited water resources for agriculture, together with the global temperature...

A genetic and molecular approach to identify transcription factors controlling maize root adaptive response to water deficit

Nacry, Phillipe, P.
Maillard, M.
Jeudy, Christian
Lamboeuf, Mickael
Bellanger, M.
Dubreuil, P.
Lafarge, S.
Duborjal, H.
Praud, S.
Krouk, G.
Salon, Christophe
Maurel, C.

March 2021

International audienceWater stress is recognized as the most severe abiotic stress for agricultural ...

Differential expression of leaf proteome of tolerant and susceptible maize (Zea mays L.) genotypes in response to multiple abiotic stresses

Rafique, Suphia

February 2019

In the present work, tropical maize genotypes were evaluated for multiple stresses (drought × low-N ...

Analysis of Gene Expression and Physiological Responses in Three Mexican Maize Landraces under Drought Stress and Recovery Irrigation

Hayano-Kanashiro Corina
Calderón-Vázquez Carlos
Ibarra-Laclette Enrique
Herrera-Estrella Luis
Simpson June

October 2009

Drought is one of the major constraints for plant productivity worldwide. Different mechanisms of dr...

Genome-Wide Expression of Transcriptomes and Their Co-Expression Pattern in Subtropical Maize (Zea mays L.) under Waterlogging Stress

Abstract

Extracted data

Genome-Wide Expression of Transcriptomes and Their Co-Expression Pattern in Subtropical Maize (Zea mays L.) under Waterlogging Stress

Abstract

Extracted data

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