Research Article

Related GMR Articles

12/05/2011
cDNA-AFLP; Chinese cabbage; Fertility-related genes; Male sterility

To better understand the molecular mechanisms of multiple-allele-inherited male sterility in Chinese cabbage (Brassica rapa ssp pekinensis), differentially expressed genes in fertile and sterile plants must be isolated. We used cDNA-AFLP analysis to isolate differentially expressed genes in fertile and sterile buds of the two-type line, AB01. Sixteen high-quality ... more

R.Q. Ji; Q. Song; X.F. Xin; X. Zhou; H. Feng
12/19/2014
Chinese cabbage; Hydroponic system; Infection progress; Plasmodiophora brassicae; Resistant lines; Susceptible lines

Brassica crops infected by Plasmodiophora brassicae can produce root galls (clubroots) and be prevented from growing normally. To understand the series of changes that occur in the host root during root gall production, the resistance character of 21 Chinese cabbage lines were identified and then resistant and susceptible lines were used for infection observation. ... more

R. Ji; L. Zhao; M. Xing; X. Shen; Q. Bi; S. Peng; H. Feng
03/27/2015
Chinese cabbage; Gene expression; Hsf; Interaction network; Phylogenetic analysis

Chinese cabbage (Brassica rapa ssp. pekinensis) is one of the most important vegetable crops grown worldwide, and various methods exist for selection, propagation, and cultivation. The entire Chinese cabbage genome has been sequenced, and the heat shock transcription factor family (Hsfs) has been found to play a central role in plant growth and development and in the ... more

X.Y. Huang; P. Tao; B.Y. Li; W.H. Wang; Z.C. Yue; J.L. Lei; X.M. Zhong
04/29/2016
Chinese cabbage; CRTISO; Fine mapping; Molecular marker; Orange head trait; Sequence blasting

Orange inner leaves/heads is a qualitative trait in Chinese cabbage that is controlled by a single recessive gene. Orange head Chinese cabbage contain more carotenoids than its white head counterpart; hence, this trait is of interest to both researchers and consumers. In this study, we selected the orange head Chinese cabbage line 07A163 and the white head Chinese cabbage line Chiifu as ... more

C.L. Zou; Y. Zheng; P. Wang; X. Zhang; Y.H. Wang; Z.Y. Liu; H. Feng; C.L. Zou; Y. Zheng; P. Wang; X. Zhang; Y.H. Wang; Z.Y. Liu; H. Feng
10/02/2015
Leaf color; Photosynthesis; Pseudosasa japonica; Quantitative real-time polymerase chain reaction; Suppression subtractive hybridization

Spontaneous leaf color variation in bamboo provides the opportunity to study the mechanisms of leaf color formation and the breeding of ornamental bamboos. Despite the fact that many genes are known to be involved in leaf color variation in model plants, molecular mechanisms governing natural leaf color variation in bamboo have remained obscure. This study aimed to identify the genes ... more

H.Y. Yang; X.W. Xia; W. Fang; Y. Fu; M.M. An; M.B. Zhou
11/19/2015
Fermentation; Protein; Proteomics; Zymomonas mobilis

Zymomonas mobilis has aroused considerable interest owing to its rapid metabolism and efficiency in producing ethanol and by-products such as levans, sorbitol, and gluconic acid from simple sugars. We performed a proteomic analysis of Z. mobilis UFPEDA241 to provide a global profile of regulatory proteins. The choice of the methods of extraction and cell lysis are ... more

D.R. Cavalcanti; C.B. Malafaia; T.D. Silva; B.S. Santos; G.M.T. Calazans; M.V. Silva
10/30/2015
cluster analysis; Faba bean; Genetic similarity; Protein; SDS-PAGE

To investigate genetic diversity and relationships of 101 faba bean (Vicia faba L.), landraces and varieties from different provinces of China and abroad were analyzed by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis (PAGE). A total of 2625 unambiguous and stable bands from 101 germplasms were detected, and 36 different bands were classified according to the ... more

W.W. Hou; X.J. Zhang; J.B. Shi; Y.J. Liu