Zobrazeno 1 - 10
of 10
pro vyhledávání: '"Chunyan Qing"'
Publikováno v:
Crop Journal, Vol 8, Iss 2, Pp 213-226 (2020)
Root system architecture (RSA) contributes to nitrogen (N) uptake and utilization in maize. In this study, a germplasm enhancement of maize double haploid population of 226 lines genotyped with 61,634 SNPs was used to investigate the genetic basis of
Externí odkaz:
https://doaj.org/article/673b7e049719466998edad7046f576ed
Publikováno v:
PeerJ, Vol 9, p e10765 (2021)
Salt stress affects crop yield by limiting growth and delaying development. In this study, we constructed 16 transcriptome libraries from maize seedling roots using two maize lines, with contrasting salt tolerance, that were exposed to salt stress fo
Externí odkaz:
https://doaj.org/article/aeb1e2925c9b4eb18b78ec186068440a
Autor:
Langlang Ma, Min Liu, Yuanyuan Yan, Chunyan Qing, Xiaoling Zhang, Yanling Zhang, Yun Long, Lei Wang, Lang Pan, Chaoying Zou, Zhaoling Li, Yanli Wang, Huanwei Peng, Guangtang Pan, Zhou Jiang, Yaou Shen
Publikováno v:
Frontiers in Plant Science, Vol 9 (2018)
The regenerative capacity of the embryonic callus, a complex quantitative trait, is one of the main limiting factors for maize transformation. This trait was decomposed into five traits, namely, green callus rate (GCR), callus differentiating rate (C
Externí odkaz:
https://doaj.org/article/4d8cc74813d94e26aa61a2efcf69b084
Autor:
Guangtang Pan, Yaou Shen, Guangsheng Yuan, Chaoying Zou, Tianhu Liang, Chunyan Qing, Peng Liu, Langlang Ma
Publikováno v:
Physiologia Plantarum. 174
Soil salinization is an important factor threatening the yield and quality of maize. Ca2+ plays a considerable role in regulating plant growth under salt stress. Herein, we examined the shoot Ca2+ concentrations, root Ca2+ concentrations, and transpo
Publikováno v:
Crop Journal, Vol 8, Iss 2, Pp 213-226 (2020)
Root system architecture (RSA) contributes to nitrogen (N) uptake and utilization in maize. In this study, a germplasm enhancement of maize double haploid population of 226 lines genotyped with 61,634 SNPs was used to investigate the genetic basis of
Publikováno v:
Physiologia plantarumREFERENCES. 172(4)
Microelements are necessary for plant growth and development, they control key processes of physiological metabolism. Herein, we evaluated three accumulation-related performances for each of the four microelements (Fe, Zn, Cu, and Mn) among 305 inbre
Autor:
Jie Chen, Minyan Zhang, Changying Zou, Cong Yang, Shijiang He, Hua Peng, Chunyan Qing, Thomas Lübberstedt, Yaou Shen, Guangtang Pan, Guangsheng Yuan, Langlang Ma
Publikováno v:
TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 134(10)
Two hub genes GRMZM2G075104 and GRMZM2G333183 involved in salt tolerance were identified by GWAS and WGCNA. Furthermore, they were verified to affect salt tolerance by candidate gene association analysis. Salt stress influences maize growth and devel
Autor:
Tianhu Liang, Chunyan Qing, Peng Liu, Chaoying Zou, Guangsheng Yuan, Guangtang Pan, Yaou Shen, Langlang Ma
Publikováno v:
Physiologia Plantarum; Jan/Feb2022, Vol. 174 Issue 1, p1-14, 14p
Publikováno v:
PeerJ
PeerJ, Vol 9, p e10765 (2021)
PeerJ, Vol 9, p e10765 (2021)
Salt stress affects crop yield by limiting growth and delaying development. In this study, we constructed 16 transcriptome libraries from maize seedling roots using two maize lines, with contrasting salt tolerance, that were exposed to salt stress fo
Autor:
Chaoying Zou, Lei Wang, Guangtang Pan, Huanwei Peng, Chunyan Qing, Yuanyuan Yan, Zhaoling Li, Liu Min, Yaou Shen, Xiaoling Zhang, Yun Long, Langlang Ma, Yanli Wang, Lang Pan, Yanling Zhang, Jiang Zhou
Publikováno v:
Frontiers in Plant Science
Frontiers in Plant Science, Vol 9 (2018)
Frontiers in Plant Science, Vol 9 (2018)
The regenerative capacity of the embryonic callus, a complex quantitative trait, is one of the main limiting factors for maize transformation. This trait was decomposed into five traits, namely, green callus rate (GCR), callus differentiating rate (C