Enhanced drought tolerance in transgenic lines when compared with the WT and VC.

Survival rates of GhSnRK2 transgenic plants under drought and low temperature stresses.

Babatunde Bello (659917)
Xueyan Zhang (277449)
Chuanliang Liu (277451)
Zhaoen Yang (659918)
Zuoren Yang (518304)
Qianhua Wang (277450)
Ge Zhao (178636)
Fuguang Li (229466)

November 2014

(A) WT and GhSnRK2 transgenic plants before and after drought stress. (B) Se...

Transgenic TaNAC67 Arabidopsis has enhanced tolerance to drought, salt and freezing stresses.

Xinguo Mao (233950)
Shuangshuang Chen (508234)
Ang Li (110963)
Chaochao Zhai (508235)
Ruilian Jing (182634)

January 2014

Phenotypes of six TaNAC67 transgenics and WT and GFP controls following drought stress (A)...

Present status and future prospects of transgenic approaches for drought tolerance

Lung, SC
Chye, ML
Xue, Y

January 2016

Drought causes severe stress on plants and constrains crop production. New strategies are essential ...

Evaluation of the drought tolerance of TaEXPA2 transgenic tobacco plants.

Yanhui Chen (218375)
Yangyang Han (484826)
Meng Zhang (154027)
Shan Zhou (112166)
Xiangzhu Kong (2609803)
Wei Wang (17594)

April 2016

(A) 10-day-old WT and transgenic plants were exposed to natural drought stress for 7 days and re-...

Analysis of the enhanced drought tolerance in transgenic tobacco lines.

Chen Wang (88408)
Pengyi Deng (419934)
Liulin Chen (419935)
Xiatian Wang (419936)
Hui Ma (290168)
Wei Hu (6560)
Ningcong Yao (419937)
Ying Feng (151159)
Ruihong Chai (419938)
Guangxiao Yang (109407)
Guangyuan He (109409)

June 2013

(A) Phenotype of WT and TG tobacco lines after 3 weeks of drought treatment. (B) Rate of leaf yel...

The IL, MDA, H2O2 content and the activities of SOD and CAT in WT and transgenic lines with the same water status under drought conditions.

Shiyi Zhou (109396)
Wei Hu (6560)
Xiaomin Deng (109400)
Zhanbing Ma (109402)
Lihong Chen (12138)
Chao Huang (109404)
Chen Wang (88408)
Jie Wang (16762)
Yanzhen He (109405)
Guangxiao Yang (109407)
Guangyuan He (109409)

December 2012

The WT and transgenic lines were cultured in MS medium under a 16 h light/8 h dark cycle at 25°C ...

Drought tolerance analysis of 35S:AtVIP1 transgenic plants.

Dong-bei Xu (688095)
Ming Chen (115604)
Ya-nan Ma (5661895)
Zhao-shi Xu (5661898)
Lian-cheng Li (5661901)
Yao-feng Chen (688096)
You-zhi Ma (5661904)

January 2015

(A) Growth of WT and 35S:AtVIP1 transgenic lines containing OE-VIP1–5 and -7 under ...

Phenotypes of wild-type and ZmSKD1-overexpressing tobacco plants in response to drought stress.

Zongliang Xia (320730)
Yangyang Wei (436909)
Kaile Sun (320731)
Jianyu Wu (320734)
Yongxia Wang (436910)
Ke Wu (320733)

July 2013

A Drought tolerance of potted plants of wild-type and ZmSKD1-overexpressing tobacco...

Transformed tobacco plants with increased tolerance to drought

Gubiš, J.
Vaňková, R.
Červená, V.
Dragúňová, M.
Hudcovicová, M.
Lichtnerová, H.
Dokupil, T.
Jureková, Z.

November 2007

AbstractP5CSF129A cDNA and the nptII marker gene were used for tobacco (Nicotiana tabacum L. cv. Bel...

Drought tolerant phenotype of transgenic plants.

Michal Szalonek (769733)
Barbara Sierpien (769734)
Wojciech Rymaszewski (769735)
Katarzyna Gieczewska (769736)
Maciej Garstka (769737)
Malgorzata Lichocka (769738)
Laszlo Sass (769739)
Kenny Paul (769740)
Imre Vass (769741)
Radomira Vankova (52282)
Peter Dobrev (769742)
Pawel Szczesny (52176)
Waldemar Marczewski (769743)
Dominika Krusiewicz (769744)
Danuta Strzelczyk-Zyta (769745)
Jacek Hennig (769746)
Dorota Konopka-Postupolska (769747)

July 2015

Potato WT plants and transgenic lines (S-2, S-7) was subjected to drought as described above in <...

Growth performance of WT and CsGolS6-overexpressing transgenic tobacco under control (irrigated) and drought-stress conditions.

Cristina P. S. Martins (5400608)
Denise Fernandes (2331589)
Valéria M. Guimarães (13813332)
Dongliang Du (745462)
Delmira C. Silva (13813335)
Alex-Alan F. Almeida (13813338)
Frederick G. Gmitter Jr. (8452347)
Wagner C. Otoni (5139653)
Marcio G. C. Costa (5400611)

September 2022

WT and transgenic (L3-L12) plants grown under greenhouse conditions were exposed to a progressive so...

Phenotypes of wild-type (WT) and AtUCP1 transgenic tobacco plants under drought and salt stresses.

Kevin Begcy (308135)
Eduardo D. Mariano (308136)
Lucia Mattiello (345378)
Alessandra V. Nunes (345379)
Paulo Mazzafera (345380)
Ivan G. Maia (345381)
Marcelo Menossi (25694)

February 2013

First row: WT plants and three AtUCP1-overexpressing lines (7, 32 and 49) were grown under contro...

Drought responses of WT and transgenic plants.

Fuhui Xu (624987)
Zhixue Liu (478261)
Hongyan Xie (264700)
Jian Zhu (126278)
Juren Zhang (624988)
Josef Kraus (495971)
Tasja Blaschnig (624989)
Reinhard Nehls (624990)
Hong Wang (13528)

September 2014

(A) and (B) Drought tolerance assay. 7-d seedlings were transferred to soil for ano...

Response of transgenic mannitol-producing tobacco plants to water deficit

MACALUSO, Laura
LO BIANCO, Riccardo
RIEGER M.

January 2008

Transgenic mannitol-producing (+mtlD) and wild type (-mtlD) tobacco plants were exposed to water def...

Physiological analysis of WT and CsGolS6-overexpressing transgenic tobacco plants under different water regimes in greenhouse conditions.

Cristina P. S. Martins (5400608)
Denise Fernandes (2331589)
Valéria M. Guimarães (13813332)
Dongliang Du (745462)
Delmira C. Silva (13813335)
Alex-Alan F. Almeida (13813338)
Frederick G. Gmitter Jr. (8452347)
Wagner C. Otoni (5139653)
Marcio G. C. Costa (5400611)

September 2022

WT and transgenic (L3-L12) plants were exposed to three water regimes: (i) control (leaf water poten...

Survival rates of GhSnRK2 transgenic plants under drought and low temperature stresses.

Babatunde Bello (659917)
Xueyan Zhang (277449)
Chuanliang Liu (277451)
Zhaoen Yang (659918)
Zuoren Yang (518304)
Qianhua Wang (277450)
Ge Zhao (178636)
Fuguang Li (229466)

November 2014

(A) WT and GhSnRK2 transgenic plants before and after drought stress. (B) Se...

Transgenic TaNAC67 Arabidopsis has enhanced tolerance to drought, salt and freezing stresses.

Xinguo Mao (233950)
Shuangshuang Chen (508234)
Ang Li (110963)
Chaochao Zhai (508235)
Ruilian Jing (182634)

January 2014

Phenotypes of six TaNAC67 transgenics and WT and GFP controls following drought stress (A)...

Present status and future prospects of transgenic approaches for drought tolerance

Lung, SC
Chye, ML
Xue, Y

January 2016

Drought causes severe stress on plants and constrains crop production. New strategies are essential ...

Evaluation of the drought tolerance of TaEXPA2 transgenic tobacco plants.

Yanhui Chen (218375)
Yangyang Han (484826)
Meng Zhang (154027)
Shan Zhou (112166)
Xiangzhu Kong (2609803)
Wei Wang (17594)

April 2016

(A) 10-day-old WT and transgenic plants were exposed to natural drought stress for 7 days and re-...

Analysis of the enhanced drought tolerance in transgenic tobacco lines.

Chen Wang (88408)
Pengyi Deng (419934)
Liulin Chen (419935)
Xiatian Wang (419936)
Hui Ma (290168)
Wei Hu (6560)
Ningcong Yao (419937)
Ying Feng (151159)
Ruihong Chai (419938)
Guangxiao Yang (109407)
Guangyuan He (109409)

June 2013

(A) Phenotype of WT and TG tobacco lines after 3 weeks of drought treatment. (B) Rate of leaf yel...

The IL, MDA, H2O2 content and the activities of SOD and CAT in WT and transgenic lines with the same water status under drought conditions.

Shiyi Zhou (109396)
Wei Hu (6560)
Xiaomin Deng (109400)
Zhanbing Ma (109402)
Lihong Chen (12138)
Chao Huang (109404)
Chen Wang (88408)
Jie Wang (16762)
Yanzhen He (109405)
Guangxiao Yang (109407)
Guangyuan He (109409)

December 2012

The WT and transgenic lines were cultured in MS medium under a 16 h light/8 h dark cycle at 25°C ...

Drought tolerance analysis of 35S:AtVIP1 transgenic plants.

Dong-bei Xu (688095)
Ming Chen (115604)
Ya-nan Ma (5661895)
Zhao-shi Xu (5661898)
Lian-cheng Li (5661901)
Yao-feng Chen (688096)
You-zhi Ma (5661904)

January 2015

(A) Growth of WT and 35S:AtVIP1 transgenic lines containing OE-VIP1–5 and -7 under ...

Phenotypes of wild-type and ZmSKD1-overexpressing tobacco plants in response to drought stress.

Zongliang Xia (320730)
Yangyang Wei (436909)
Kaile Sun (320731)
Jianyu Wu (320734)
Yongxia Wang (436910)
Ke Wu (320733)

July 2013

A Drought tolerance of potted plants of wild-type and ZmSKD1-overexpressing tobacco...

Transformed tobacco plants with increased tolerance to drought

Gubiš, J.
Vaňková, R.
Červená, V.
Dragúňová, M.
Hudcovicová, M.
Lichtnerová, H.
Dokupil, T.
Jureková, Z.

November 2007

AbstractP5CSF129A cDNA and the nptII marker gene were used for tobacco (Nicotiana tabacum L. cv. Bel...

Drought tolerant phenotype of transgenic plants.

Michal Szalonek (769733)
Barbara Sierpien (769734)
Wojciech Rymaszewski (769735)
Katarzyna Gieczewska (769736)
Maciej Garstka (769737)
Malgorzata Lichocka (769738)
Laszlo Sass (769739)
Kenny Paul (769740)
Imre Vass (769741)
Radomira Vankova (52282)
Peter Dobrev (769742)
Pawel Szczesny (52176)
Waldemar Marczewski (769743)
Dominika Krusiewicz (769744)
Danuta Strzelczyk-Zyta (769745)
Jacek Hennig (769746)
Dorota Konopka-Postupolska (769747)

July 2015

Potato WT plants and transgenic lines (S-2, S-7) was subjected to drought as described above in <...

Growth performance of WT and CsGolS6-overexpressing transgenic tobacco under control (irrigated) and drought-stress conditions.

Cristina P. S. Martins (5400608)
Denise Fernandes (2331589)
Valéria M. Guimarães (13813332)
Dongliang Du (745462)
Delmira C. Silva (13813335)
Alex-Alan F. Almeida (13813338)
Frederick G. Gmitter Jr. (8452347)
Wagner C. Otoni (5139653)
Marcio G. C. Costa (5400611)

September 2022

WT and transgenic (L3-L12) plants grown under greenhouse conditions were exposed to a progressive so...

Phenotypes of wild-type (WT) and AtUCP1 transgenic tobacco plants under drought and salt stresses.

Kevin Begcy (308135)
Eduardo D. Mariano (308136)
Lucia Mattiello (345378)
Alessandra V. Nunes (345379)
Paulo Mazzafera (345380)
Ivan G. Maia (345381)
Marcelo Menossi (25694)

February 2013

First row: WT plants and three AtUCP1-overexpressing lines (7, 32 and 49) were grown under contro...

Drought responses of WT and transgenic plants.

Fuhui Xu (624987)
Zhixue Liu (478261)
Hongyan Xie (264700)
Jian Zhu (126278)
Juren Zhang (624988)
Josef Kraus (495971)
Tasja Blaschnig (624989)
Reinhard Nehls (624990)
Hong Wang (13528)

September 2014

(A) and (B) Drought tolerance assay. 7-d seedlings were transferred to soil for ano...

Response of transgenic mannitol-producing tobacco plants to water deficit

MACALUSO, Laura
LO BIANCO, Riccardo
RIEGER M.

January 2008

Transgenic mannitol-producing (+mtlD) and wild type (-mtlD) tobacco plants were exposed to water def...

Physiological analysis of WT and CsGolS6-overexpressing transgenic tobacco plants under different water regimes in greenhouse conditions.

Cristina P. S. Martins (5400608)
Denise Fernandes (2331589)
Valéria M. Guimarães (13813332)
Dongliang Du (745462)
Delmira C. Silva (13813335)
Alex-Alan F. Almeida (13813338)
Frederick G. Gmitter Jr. (8452347)
Wagner C. Otoni (5139653)
Marcio G. C. Costa (5400611)

September 2022

WT and transgenic (L3-L12) plants were exposed to three water regimes: (i) control (leaf water poten...

Survival rates of GhSnRK2 transgenic plants under drought and low temperature stresses.

Babatunde Bello (659917)
Xueyan Zhang (277449)
Chuanliang Liu (277451)
Zhaoen Yang (659918)
Zuoren Yang (518304)
Qianhua Wang (277450)
Ge Zhao (178636)
Fuguang Li (229466)

November 2014

(A) WT and GhSnRK2 transgenic plants before and after drought stress. (B) Se...

Transgenic TaNAC67 Arabidopsis has enhanced tolerance to drought, salt and freezing stresses.

Xinguo Mao (233950)
Shuangshuang Chen (508234)
Ang Li (110963)
Chaochao Zhai (508235)
Ruilian Jing (182634)

January 2014

Phenotypes of six TaNAC67 transgenics and WT and GFP controls following drought stress (A)...

Present status and future prospects of transgenic approaches for drought tolerance

Lung, SC
Chye, ML
Xue, Y

January 2016

Drought causes severe stress on plants and constrains crop production. New strategies are essential ...

Enhanced drought tolerance in transgenic lines when compared with the WT and VC.

Abstract

Extracted data

Enhanced drought tolerance in transgenic lines when compared with the WT and VC.

Abstract

Extracted data

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