DataSheet_1_Transcriptomic comparison of seeds and silique walls from two rapeseed genotypes with contrasting seed oil content.docx

DataSheet_2_Transcriptomic analysis of seed development in Paysonia auriculata (Brassicaceae) identifies genes involved in hydroxy fatty acid biosynthesis.docx

Hao Hu (111737)
Armond Swift (14422557)
Margarita Mauro-Herrera (258686)
James Borrone (14422560)
Guadalupe Borja (14422563)
Andrew N. Doust (3176982)

January 2023

Paysonia auriculata (Brassicaceae) produces multiple hydroxy fatty acids as major components of the ...

Additional file 2: of An integrated omics analysis reveals molecular mechanisms that are associated with differences in seed oil content between Glycine max and Brassica napus

Zhibin Zhang (102722)
Jim Dunwell (6050864)
Yuan-Ming Zhang (42129)

December 2018

Figure S1. The expression patterns for the genes of 230 gene families related to oil biosynthesis. T...

DataSheet_1_Identification of candidate genes regulating seed oil content by QTL mapping and transcriptome sequencing in Brassica napus.zip

Zhongchun Xiao (6173051)
Chao Zhang (51048)
Cunmin Qu (404978)
Lijuan Wei (837941)
Liyuan Zhang (220168)
Bo Yang (104813)
Kun Lu (404977)
Jiana Li (182502)

December 2022

Increasing oil production is a major goal in rapeseed (Brassica napus) molecular breeding programs. ...

Table_1_Transcriptomic comparison of seeds and silique walls from two rapeseed genotypes with contrasting seed oil content.xlsx

Xupeng Guo (4978562)
Na Yan (450205)
Linpo Liu (796058)
Xiangzhen Yin (651804)
Yuhong Chen (120972)
Yanfeng Zhang (145335)
Jingqiao Wang (782895)
Guozhi Cao (14422611)
Chengming Fan (578685)
Zanmin Hu (115973)

January 2023

Silique walls play pivotal roles in contributing photoassimilates and nutrients to fuel seed growth....

Comparative Transcriptome Analysis of Developing Seeds and Silique Wall Reveals Dynamic Transcription Networks for Effective Oil Production in Brassica napus L.

Muhammad Shahid
Guangqin Cai
Feng Zu
Qing Zhao
Muhammad Uzair Qasim
Yueyun Hong
Chuchuan Fan
Yongming Zhou

April 2019

Vegetable oil is an essential constituent of the human diet and renewable raw material for industria...

Transcriptome profiling analysis reveals the role of silique in controlling seed oil content in Brassica napus.

Ke-Lin Huang
Mei-Li Zhang
Guang-Jing Ma
Huan Wu
Xiao-Ming Wu
Feng Ren
Xue-Bao Li

January 2017

Seed oil content is an important agronomic trait in oilseed rape. However, the molecular mechanism o...

Transcriptomic comparison between developing seeds of yellow- and black-seeded Brassica napus reveals that genes influence seed quality

Jiang, Jinjin
Zhu, Shuang
Yuan, Yi
Wang, Yue
Zeng, Lei
Batley, Jacqueline
Wang, You-Ping

May 2019

BackgroundBrassica napus is of substantial economic value for vegetable oil, biofuel, and animal fod...

Transcriptome Analysis Comparison of Lipid Biosynthesis in the Leaves and Developing Seeds of Brassica napus

Jie Chen (5892)
Ren-Ke Tan (737870)
Xiao-Juan Guo (737871)
Zheng-Li Fu (737872)
Zheng Wang (25883)
Zhi-Yan Zhang (737873)
Xiao-Li Tan (737874)

May 2015

<div>Brassica napus seed is a lipid storage organ containing approximately 40% oil, while ...

RESEARCH ARTICLE Transcriptome Analysis Comparison of Lipid Biosynthesis in the Leaves and Developing Seeds of Brassica napus

Jie Chen
Ren-ke Tan
Xiao-juan Guo
Zheng-li Fu
Zhi-yan Zhang
Li Tan

August 2016

Brassica napus seed is a lipid storage organ containing approximately 40 % oil, while its leaves con...

Genome-wide association study and transcriptome analysis dissect the genetic control of silique length in Brassica napus L.

Jia Wang
Yueling Fan
Lin Mao
Cunmin Qu
Kun Lu
Jiana Li
Liezhao Liu

November 2021

Abstract Background Rapeseed is the third-largest oilseed crop after soybeans and palm that produces...

Chlorophyll and carbohydrate metabolism in developing silique and seed are prerequisite to seed oil content of Brassica napus L.

Hua, Shuijin
Chen, Zhonghua (R16781)
Zhang, Yaofeng
Yu, Huasheng
Lin, Baogang
Zhang, Dongqing

January 2014

Background: Although the seed oil content in canola is a crucial quality determining trait, the regu...

Dynamic Metabolic Profiles and Tissue-Specific Source Effects on the Metabolome of Developing Seeds of Brassica napus.

Helin Tan
Qingjun Xie
Xiaoe Xiang
Jianqiao Li
Suning Zheng
Xinying Xu
Haolun Guo
Wenxue Ye

Canola (Brassica napus) is one of several important oil-producing crops, and the physiological proce...

DataSheet_1_Transcriptomic analysis of seed development in Paysonia auriculata (Brassicaceae) identifies genes involved in hydroxy fatty acid biosynthesis.pdf

Hao Hu (111737)
Armond Swift (14422557)
Margarita Mauro-Herrera (258686)
James Borrone (14422560)
Guadalupe Borja (14422563)
Andrew N. Doust (3176982)

January 2023

Paysonia auriculata (Brassicaceae) produces multiple hydroxy fatty acids as major components of the ...

Table_1_Transcriptomic analysis of seed development in Paysonia auriculata (Brassicaceae) identifies genes involved in hydroxy fatty acid biosynthesis.xlsx

Hao Hu (111737)
Armond Swift (14422557)
Margarita Mauro-Herrera (258686)
James Borrone (14422560)
Guadalupe Borja (14422563)
Andrew N. Doust (3176982)

January 2023

Paysonia auriculata (Brassicaceae) produces multiple hydroxy fatty acids as major components of the ...

Interaction between phenylpropane metabolism and oil accumulation in the developing seed of Brassica napus revealed by high temporal-resolution transcriptomes

Liangqian Yu
Dongxu Liu
Feifan Yin
Pugang Yu
Shaoping Lu
Yuting Zhang
Hu Zhao
Chaofu Lu
Xuan Yao
Cheng Dai
Qing-Yong Yang
Liang Guo

September 2023

Abstract Background Brassica napus is an important oilseed crop providing high-quality vegetable oil...

DataSheet_2_Transcriptomic analysis of seed development in Paysonia auriculata (Brassicaceae) identifies genes involved in hydroxy fatty acid biosynthesis.docx

Hao Hu (111737)
Armond Swift (14422557)
Margarita Mauro-Herrera (258686)
James Borrone (14422560)
Guadalupe Borja (14422563)
Andrew N. Doust (3176982)

January 2023

Paysonia auriculata (Brassicaceae) produces multiple hydroxy fatty acids as major components of the ...

Additional file 2: of An integrated omics analysis reveals molecular mechanisms that are associated with differences in seed oil content between Glycine max and Brassica napus

Zhibin Zhang (102722)
Jim Dunwell (6050864)
Yuan-Ming Zhang (42129)

December 2018

Figure S1. The expression patterns for the genes of 230 gene families related to oil biosynthesis. T...

DataSheet_1_Identification of candidate genes regulating seed oil content by QTL mapping and transcriptome sequencing in Brassica napus.zip

Zhongchun Xiao (6173051)
Chao Zhang (51048)
Cunmin Qu (404978)
Lijuan Wei (837941)
Liyuan Zhang (220168)
Bo Yang (104813)
Kun Lu (404977)
Jiana Li (182502)

December 2022

Increasing oil production is a major goal in rapeseed (Brassica napus) molecular breeding programs. ...

Table_1_Transcriptomic comparison of seeds and silique walls from two rapeseed genotypes with contrasting seed oil content.xlsx

Xupeng Guo (4978562)
Na Yan (450205)
Linpo Liu (796058)
Xiangzhen Yin (651804)
Yuhong Chen (120972)
Yanfeng Zhang (145335)
Jingqiao Wang (782895)
Guozhi Cao (14422611)
Chengming Fan (578685)
Zanmin Hu (115973)

January 2023

Silique walls play pivotal roles in contributing photoassimilates and nutrients to fuel seed growth....

Comparative Transcriptome Analysis of Developing Seeds and Silique Wall Reveals Dynamic Transcription Networks for Effective Oil Production in Brassica napus L.

Muhammad Shahid
Guangqin Cai
Feng Zu
Qing Zhao
Muhammad Uzair Qasim
Yueyun Hong
Chuchuan Fan
Yongming Zhou

April 2019

Vegetable oil is an essential constituent of the human diet and renewable raw material for industria...

Transcriptome profiling analysis reveals the role of silique in controlling seed oil content in Brassica napus.

Ke-Lin Huang
Mei-Li Zhang
Guang-Jing Ma
Huan Wu
Xiao-Ming Wu
Feng Ren
Xue-Bao Li

January 2017

Seed oil content is an important agronomic trait in oilseed rape. However, the molecular mechanism o...

Transcriptomic comparison between developing seeds of yellow- and black-seeded Brassica napus reveals that genes influence seed quality

Jiang, Jinjin
Zhu, Shuang
Yuan, Yi
Wang, Yue
Zeng, Lei
Batley, Jacqueline
Wang, You-Ping

May 2019

BackgroundBrassica napus is of substantial economic value for vegetable oil, biofuel, and animal fod...

Transcriptome Analysis Comparison of Lipid Biosynthesis in the Leaves and Developing Seeds of Brassica napus

Jie Chen (5892)
Ren-Ke Tan (737870)
Xiao-Juan Guo (737871)
Zheng-Li Fu (737872)
Zheng Wang (25883)
Zhi-Yan Zhang (737873)
Xiao-Li Tan (737874)

May 2015

<div>Brassica napus seed is a lipid storage organ containing approximately 40% oil, while ...

RESEARCH ARTICLE Transcriptome Analysis Comparison of Lipid Biosynthesis in the Leaves and Developing Seeds of Brassica napus

Jie Chen
Ren-ke Tan
Xiao-juan Guo
Zheng-li Fu
Zhi-yan Zhang
Li Tan

August 2016

Brassica napus seed is a lipid storage organ containing approximately 40 % oil, while its leaves con...

Genome-wide association study and transcriptome analysis dissect the genetic control of silique length in Brassica napus L.

Jia Wang
Yueling Fan
Lin Mao
Cunmin Qu
Kun Lu
Jiana Li
Liezhao Liu

November 2021

Abstract Background Rapeseed is the third-largest oilseed crop after soybeans and palm that produces...

Chlorophyll and carbohydrate metabolism in developing silique and seed are prerequisite to seed oil content of Brassica napus L.

Hua, Shuijin
Chen, Zhonghua (R16781)
Zhang, Yaofeng
Yu, Huasheng
Lin, Baogang
Zhang, Dongqing

January 2014

Background: Although the seed oil content in canola is a crucial quality determining trait, the regu...

Dynamic Metabolic Profiles and Tissue-Specific Source Effects on the Metabolome of Developing Seeds of Brassica napus.

Helin Tan
Qingjun Xie
Xiaoe Xiang
Jianqiao Li
Suning Zheng
Xinying Xu
Haolun Guo
Wenxue Ye

Canola (Brassica napus) is one of several important oil-producing crops, and the physiological proce...

DataSheet_1_Transcriptomic analysis of seed development in Paysonia auriculata (Brassicaceae) identifies genes involved in hydroxy fatty acid biosynthesis.pdf

Hao Hu (111737)
Armond Swift (14422557)
Margarita Mauro-Herrera (258686)
James Borrone (14422560)
Guadalupe Borja (14422563)
Andrew N. Doust (3176982)

January 2023

Paysonia auriculata (Brassicaceae) produces multiple hydroxy fatty acids as major components of the ...

Table_1_Transcriptomic analysis of seed development in Paysonia auriculata (Brassicaceae) identifies genes involved in hydroxy fatty acid biosynthesis.xlsx

Hao Hu (111737)
Armond Swift (14422557)
Margarita Mauro-Herrera (258686)
James Borrone (14422560)
Guadalupe Borja (14422563)
Andrew N. Doust (3176982)

January 2023

Paysonia auriculata (Brassicaceae) produces multiple hydroxy fatty acids as major components of the ...

Interaction between phenylpropane metabolism and oil accumulation in the developing seed of Brassica napus revealed by high temporal-resolution transcriptomes

Liangqian Yu
Dongxu Liu
Feifan Yin
Pugang Yu
Shaoping Lu
Yuting Zhang
Hu Zhao
Chaofu Lu
Xuan Yao
Cheng Dai
Qing-Yong Yang
Liang Guo

September 2023

Abstract Background Brassica napus is an important oilseed crop providing high-quality vegetable oil...

DataSheet_2_Transcriptomic analysis of seed development in Paysonia auriculata (Brassicaceae) identifies genes involved in hydroxy fatty acid biosynthesis.docx

Hao Hu (111737)
Armond Swift (14422557)
Margarita Mauro-Herrera (258686)
James Borrone (14422560)
Guadalupe Borja (14422563)
Andrew N. Doust (3176982)

January 2023

Paysonia auriculata (Brassicaceae) produces multiple hydroxy fatty acids as major components of the ...

Additional file 2: of An integrated omics analysis reveals molecular mechanisms that are associated with differences in seed oil content between Glycine max and Brassica napus

Zhibin Zhang (102722)
Jim Dunwell (6050864)
Yuan-Ming Zhang (42129)

December 2018

Figure S1. The expression patterns for the genes of 230 gene families related to oil biosynthesis. T...

DataSheet_1_Identification of candidate genes regulating seed oil content by QTL mapping and transcriptome sequencing in Brassica napus.zip

Zhongchun Xiao (6173051)
Chao Zhang (51048)
Cunmin Qu (404978)
Lijuan Wei (837941)
Liyuan Zhang (220168)
Bo Yang (104813)
Kun Lu (404977)
Jiana Li (182502)

December 2022

Increasing oil production is a major goal in rapeseed (Brassica napus) molecular breeding programs. ...

DataSheet_1_Transcriptomic comparison of seeds and silique walls from two rapeseed genotypes with contrasting seed oil content.docx

Abstract

Extracted data

DataSheet_1_Transcriptomic comparison of seeds and silique walls from two rapeseed genotypes with contrasting seed oil content.docx

Abstract

Extracted data

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