Your search keyword '"Wang Chuntai"' showing total 13 results

1. Accelerated molecular breeding of novel cytoplasmic male sterility lines in rice usingorfH79ororf290haplotype

Author

Wang ChunTai, Tan YanPing, Liu Xue-qun, Tang Xianying, Xu Xin, Cheng Gang, Tian Ze, Li JiaYang, and Chen Tong

Subjects

Molecular breeding, Genetics, Haplotype, Cytoplasmic male sterility, Plant Science, Biology, Agronomy and Crop Science

Published

2021

2. A genome-wide survey of interaction between rice and Magnaporthe oryzae via microarray analysis

Author

Yang Xiaolin, Yanping Tan, Wang Chuntai, Xinqiong Liu, Xin Xu, and Minghao Pei

Subjects

0106 biological sciences, 0301 basic medicine, Microarray, interaction, Bioengineering, Computational biology, Biology, 01 natural sciences, Applied Microbiology and Biotechnology, Genome, magnaporthe oryzae, 03 medical and health sciences, skin and connective tissue diseases, Regulation of gene expression, Microarray analysis techniques, rice, food and beverages, General Medicine, Magnaporthe oryzae, 030104 developmental biology, sense organs, DNA microarray, microarray, TP248.13-248.65, 010606 plant biology & botany, Biotechnology

Abstract

The main aim of the work is to study the regulation of gene expression in the interaction between rice and Magnaporthe oryzae by gene chip technology. In this study, we mainly focused on changes of gene expression at 24, 48, and 72 hours post-inoculation (hpi), through which we could conduct a more comprehensive analysis of rice blast-related genes in the process of infection. The results showed that the experimental groups contained 460, 1227, and 3937 significant differentially expressed genes at 24, 48, and 72 hpi, respectively. Furthermore, 115 significantly differentially expressed genes were identified in response to rice blast infection at all three time points. By annotating these 115 genes, they were divided into three categories: metabolic pathways, proteins or enzymes, and organelle components. As expected, many of these genes were known rice blast-related genes; however, we discovered new genes with high fold changes. Most of them encoded conserved hypothetical proteins, and some were hypothetically conserved genes. Our study may contribute to finding new resistance genes and understanding the mechanism of rice blast development.

Published

2021

3. Genetic diversity and pathogenicity dynamics of Magnaporthe oryzae in the Wuling Mountain area of China

Author

Wu Yang, Xinqiong Liu, Yanping Tan, Xin Xu, Jie Zheng, Ke Tian, Kai Li, Lu Wei, Yonghua Qin, and Wang Chuntai

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Genetic diversity, Host (biology), food and beverages, Plant Science, Horticulture, Biology, Pathogenicity, 01 natural sciences, RAPD, 03 medical and health sciences, Magnaporthe oryzae, 030104 developmental biology, Genetic structure, Agronomy and Crop Science, Gene, Blast disease, 010606 plant biology & botany

Abstract

Rice blast, caused by Magnaporthe oryzae (M. oryzae), is one of the most destructive diseases in cultivated rice. The Wuling Mountain Area is marked as the key area for the national prevention and control of rice blast disease in China and is the ideal area for M. oryzae research according to its unique natural condition. In this study, a simple, low-cost and effective marker system including RAPD, REMAP, rep-PCR and Avr genes was developed for genetic diversity analysis of 108 M. oryzae isolates collected from the Wuling Mountain Area during 2012–2014. The results showed significant changes in the genetic structures of M. oryzae populations over the 3 years. However, there was no remarkably simple relationship between the genetic lineages and pathotypes (physiological races) of M. oryzae. The main mechanisms of M. oryzae to overcome host genes in the natural conditions of the Wuling Mountain Area might be point mutations or small deletions of gene sequences.

Published

2018

4. Pathogenicity, mating type distribution and avirulence gene mutation of Magnaporthe oryzae populations in the Wuling Mountain region of China

Author

Kai Li, Xianying Tang, Haojie Han, Yonghua Qin, Wang Chuntai, Liu Xuequn, Yanping Tan, Wu Yang, Xinqiong Liu, and Xin Xu

Subjects

Genetics, Sanger sequencing, Mating type, Genetic diversity, food and beverages, Plant Science, Biology, Gene mutation, RAPD, chemistry.chemical_compound, symbols.namesake, chemistry, Molecular marker, symbols, Indel, Gene

Abstract

Due to its unique natural conditions, the Wuling Mountain region is a key area of prevention and control of rice blast disease in China and an ideal area for investigation of its causal fungus, Magnaporthe oryzae (M. oryzae) research. A total of 237 M. oryzae isolates collected from the Wuling Mountain region in 2017–2018 were used for the study of genetic diversity and pathogenicity dynamics. A set of differential varieties (DVs), including 7 Chinese DVs, 12 Japanese DVs and 21 monogenic lines, were established, which differentiate the 237 isolates in this study into different physiological races. Cluster analysis of the combined molecular marker system (RAPD, REMAP, rep-PCR and the avirulence (Avr) gene) results showed that Baiyang and Jianshi had the greatest genetic diversity, which is consistent with the pathogenic results. The proportion of the two mating types was roughly equal each year; however, the dominance of the mating type between the two years was opposite. Furthermore, four isolates contained both mating types, which were assumed to be dual maters. Isolates with amplified bands of Avr genes (Avr-Pizt and Avr-Pita) and corresponding pathogenicity were selected for Sanger sequencing. The result showed that point mutations and small indels resulted in the loss of avirulence function, indicating that mutations are potential mechanism for the rich pathogenic and genetic diversity of M. oryzae in the Wuling Mountain region.

Published

2021

5. Polyamine Plays a Role in Subculture Growth of in Vitro Callus of Indica Rice

Author

Jie Zhou, Xin Xu, Yanping Tan, Gang Cheng, Liu Xuequn, Wen Hu, and Wang Chuntai

Subjects

0106 biological sciences, 0301 basic medicine, Plant Science, Biology, 01 natural sciences, In vitro, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Callus, Gene expression, Botany, Browning, Subculture (biology), Polyamine, 010606 plant biology & botany

Abstract

In vitroembryogenic callus is a critical factor for genetic transformation of rice, especially for indica varieties. In this study, we investigated the relationship between polyamines, including putrescine (Put), spermidine (Spd) and spermine (Spm), and callus browning, and we studied the effect of exogenous Put on callus regeneration and on the content of endogenous polyamines. In addition, the expression levels of arginine decarboxylase gene (Adc1) and S-adenosylmethionine decarboxylase gene (Samdc) in embryogenic callus were studied by quantitative Real-time PCR analysis. The results showed that the contents of endogenous Put and Spd in the browning callus were significantly lower than those in normal callus. Exogenous Put could effectively improve the growing state of callus of indica rice and enhance the development of embryogenic callus. The content of endogenous polyamines in embryogenic callus, especially Spd and Spm, was increased after addition of exogenous Put. Additionally, exogenous Put also had an obvious impact on the expression levels ofAdc1but partial effect on the expression levels ofSamdcgene. This study could increase the knowledge of both embryogenic callus induction and polyamine catabolism in callus in indica rice.

Published

2017

6. A high-throughput DNA extraction method from rice seeds

Author

Wang Chuntai, Huabing Liang, Xin Xu, and Ya Deng

Subjects

0106 biological sciences, 0301 basic medicine, lcsh:Biotechnology, Computational biology, Biology, seeds, 01 natural sciences, Bottleneck, law.invention, 03 medical and health sciences, chemistry.chemical_compound, law, lcsh:TP248.13-248.65, Throughput (business), DNA extraction, Polymerase chain reaction, Selection (genetic algorithm), business.industry, rice, food and beverages, Amplicon, Biotechnology, genomic DNA, 030104 developmental biology, chemistry, business, DNA, 010606 plant biology & botany

Abstract

Rapid and inexpensive preparation of genomic DNA from rice seeds for marker-assisted selection and seed purity estimation is a major bottleneck for plant breeders. Here, we describe a high-throughput method that provides DNA at sufficient quantity and quality for these applications. Optimization of buffer composition and individual protocol stages allow processing of 384 samples within 2 h, yielding templates that reliably support downstream polymerase chain reaction of single copy amplicons up to 1.2 kb.

Published

2016

7. Expression analysis of innate immunity related genes in the true/field blast resistance gene-mediated defence response

Author

Wang Chuntai, Ling Zhang, Yonghua Qin, Debing Wang, Xinqiong Liu, Xin Xu, Jingluan Han, and Liu Xuequn

Subjects

Genetics, Innate immune system, true resistance, field resistance, Jasmonic acid, food and beverages, Biology, Marker gene, rice blast disease, Hedgehog signaling pathway, chemistry.chemical_compound, chemistry, Downregulation and upregulation, Article, Agriculture and Environmental Biotechnology, signalling pathway, Gene, Abscisic acid, Salicylic acid, Biotechnology

Abstract

Rice blast resistance (R) genes-mediated resistance response depends on various resistance-related genes involved in incompatible interactions. In this work, the expression profiles of innate rice immunity related genes were examined in the mediated resistance response of true/field resistance genes. Three sets of rice near-isogenic lines (NILs) were used: the resistant NILs carrying true resistance genes in the genetic background of the susceptible cultivar Nipponbare (NB), NB-Pib, NB-Pizt, NB-Pik and NB-Pita2; NILs bearing field resistance genes pi21 in the susceptible cultivar Aichiasahi (AA) AA-pi21, Kahei (KHR). The marker gene OsWRKY45 of salicylic acid (SA) signalling was upregulated in all tested cultivars. And, JAmyb (marker gene of jasmonic acid signalling) showed higher upregulation in the resistance lines with nucleotide-binding sites and leucine-rich repeat (NBS-LRR) R genes Pib, Pizt, Pik, Pita2 and Pikahei than in NB and KHS. SalT of abscisic acid (ABA) signalling may be involved in the R/Avr interaction, including Pizt, Pik, pi21 and Pikahei. However, SalT was shown to negatively regulate Pib/AvrPib interaction. OsPR1b and PBZ1 were differentially expressed and strongly activated at a later stage by 48 h post-inoculation. Interestingly, there was evidence that OsPR1b and PBZ1 played an important role in the pi21-mediated response. It was shown that OsRAR1 could be upregulated in the true resistance line NB-Pita2 and the field resistance line KHR, while OsSGT1 and OsHSP90 could be upregulated in all tested lines. The involvement of these genes illustrated the complexity of the downstream signalling pathways in the mediated resistance response of true/field resistance genes.

Published

2014

8. Expression analysis of OsbZIP transcription factors in resistance response by the rice blast resistance gene Pi36-mediated

Author

Zhang Xiangming, Liu Xuequn, Xinqiong Liu, Wang Chuntai, Dan Zhang, and Jinglan Han

Subjects

Genetics, Microarray, food and beverages, Fungus, Biology, biology.organism_classification, Applied Microbiology and Biotechnology, Real-time polymerase chain reaction, Photomorphogenesis, Signal transduction, Agronomy and Crop Science, Molecular Biology, Gene, Transcription factor, Function (biology), Biotechnology

Abstract

Plant basic leucine zipper (bZIP) proteins play an essential role in the genes expression and regulation in higher plants. They have been shown to regulate diverse plant specific phenomena, including germination, floral induction and development, seed maturation, photomorphogenesis, biotic and abiotic stresses. Resistance response mediated by the rice blast resistance gene Pi36 is a typical signal transduction, in which 12 OsbZIP genes were differentially expressed by microarray analyses. To understand the potential function of OsbZIP genes during the defense responses against rice blast, the expression analysis of these OsbZIP genes, in response to the blast fungus inoculation and the related defense signal molecules induction, were further conducted using real-time fluorescent quantitative polymerase chain reaction (PCR) technique. Our data indicates that among the 12 OsbZIP genes, the expression level eight tested genes were differentially regulated and maintained to 96 h points post inoculation in rice resistant and susceptible cultivars during Magnaporthe oryzae infection, and all of them were also significantly up-regulated by one or several kinds of exogenous plant hormones stresses. Although, these genes were induced only at early time points (1 to 24 h); it is evident that the OsbZIP genes may be involved in different signaling pathway, and play potential important functions in the defense response to rice blast. Keywords: OsbZIP transcription factors, rice blast, resistance response, plant hormones stresses. African Journal of Biotechnology Vol. 12(34), pp. 5294-5302

Published

2016

9. Genetic Variation of Rice Blast Resistance Genes inOryza sativaand Its Wild Relatives

Author

Liu Xinqiong, Ji-Cheng Zhang, Ling Wang, Zhang Xiangming, Jing-Luan Wei, Wang Chuntai, Liu Xuequn, and Qinghua Pan

Subjects

Genetics, Genetic diversity, Oryza sativa, Resistance (ecology), food and beverages, Plant Science, Biology, biology.organism_classification, Oryza rufipogon, Nucleotide diversity, Genetic variation, Botany, Cultivar, human activities, Gene, Ecology, Evolution, Behavior and Systematics

Abstract

Rice blast is one of the most serious diseases of cultivated rice. We characterize here the nucleotide variation present at nine blast resistance (R) genes within a collection of 13 indica and 13 japonica rice cultivars, along with 12 accessions of wild rice (Oryza rufipogon). Compared with other functional genes, high genetic diversity has been observed in blast R genes (mean nucleotide diversity of 3.2%), which might be the most important characteristics of blast R genes. Even if the overall diversity in R genes is high, the genes can also be divided into three types according to different degrees of conservation by principal component analysis: relative conservation (Pita, Pit, Pi5-1, and Pid-2), intermediate diversity (Pi37, Pib, and Pi9), and high diversity (Pi36 and Pikm-2), suggesting that these types of R genes might recognize different categories of molecules released by rice blast pathogens. Our data also revealed that a significant regression was observed between the wild and the cultivated acc...

Published

2011

10. The effect of the rice blast resistance gene Pi36 on the expression of disease resistance-related genes

Author

Liu Xuequn, Wang Chuntai, Qinghua Pan, Ling Wang, LiYuan Wang, Xinqiong Liu, and YuanYuan Li

Subjects

Genetics, Pathosystem, Magnaporthe oryzae, Multidisciplinary, Plant disease resistance, Biology, NPR1, Pathogen, Signalling pathways, Transcription factor, Gene

Abstract

The resistance gene Pi36 confers a stable and high level of resistance against Chinese isolates of the rice blast pathogen Magnaporthe oryzae. Quantitative real time RT-PCR was used to investigate the expression profiles of various resistance-related genes in both the Pi36/AvPi36 incompatible interactions. Among 17 members of the OsMAPK family, OsMAPK2, OsMAPK4, OsMAPK8 and OsMAPK15 were differentially expressed, as were OsWRKY30, OsWRKY32, OsWRKY64 and OsWRKY67 among the 13 OsWRKY members studied. The induction of the expression of genes from both of these families suggests that both the JA and SA pathways are involved in Pi36-mediated defence. Other genes differentially expressed included the OsbZIP transcription factors, OsNIF1 and OsNIF2, and the NPR1 homologue OsNH2, all of which were reported in the rice blast pathosystem. The involvement of these genes illustrates the complexity of the downstream signalling pathways involved in the Pi36/AvrPi36 interaction.

Published

2010

11. The Molecular Evolution of the Rice Blast Resistance GenePi36

Author

De‐Bin Wang, Liu Xuequn, Fei Lin, Wang Chuntai, Liu Xinqiong, Ling Wang, Xiang‐Dong Liu, and Qinghua Pan

Subjects

Genetics, Genetic diversity, fungi, food and beverages, Plant Science, Biology, Plant disease resistance, Balancing selection, Nucleotide diversity, Molecular evolution, Botany, Coding region, Gene conversion, Gene, Ecology, Evolution, Behavior and Systematics

Abstract

The single‐locus rice blast resistance gene Pi36 is of the coiled‐coil NBS‐LRR (nucleotide binding site–leucine‐rich repeat) type. We have investigated its evolution by resequencing a set of haplotypes (six ssp. indica and four ssp. japonica cultivars and three wild rice accessions) both within and outside the gene’s coding region. It was found that the average nucleotide diversity was ∼4.5%, characteristic of an intermediately diversified pattern. The Ka/Ks ratio and Tajima’s D test were used to show that the gene’s evolution reflects a mixture of purifying and balancing selection. In all, 186 significant gene conversion events were identified across the full coding region, suggesting that gene conversion has also been an important driver of sequence diversification.

Published

2010

12. Expression Pattern of GS3 During Panicle Development in Rice under Drought Stress: Quantification Normalized Against Selected Housekeeping Genes in Real-Time PCR

Author

Liu DongHua, Cao JinHua, Wang ChunTai, Zhang JiaLiang, Jin DeMing, Yu Can, and Wang ZhiHua

Subjects

Genetics, Drought stress, business.industry, Plant Science, Biology, Housekeeping gene, Biotechnology, Reverse transcription polymerase chain reaction, Real-time polymerase chain reaction, Expression pattern, Gene expression, business, Agronomy and Crop Science, Gene, Panicle

Published

2009

13. Identification and fine mapping of Pi39(t), a major gene conferring the broad-spectrum resistance to Magnaporthe oryzae

Author

Qinzhong Yang, Xinqiong Liu, Fei Lin, Ling Wang, Wang Chuntai, Lixia Hua, and Qinghua Pan

Subjects

Genetics, Bacterial artificial chromosome, Gene map, Chromosome Mapping, Computational Biology, Locus (genetics), Oryza, General Medicine, R gene, Biology, Genes, Plant, Major gene, Immunity, Innate, Magnaporthe, Gene mapping, Genetic marker, Genetic linkage, Molecular Biology, Plant Diseases

Abstract

Blast, caused by the ascomycete fungus Magnaporthe oryzae, is one of the most devastating diseases of rice worldwide. The Chinese native cultivar (cv.) Q15 expresses the broad-spectrum resistance to most of the isolates collected from China. To effectively utilize the resistance, three rounds of linkage analysis were performed in an F2 population derived from a cross of Q15 and a susceptible cv. Tsuyuake, which segregated into 3:1 (resistant/susceptible) ratio. The first round of linkage analysis employing simple sequence repeat (SSR) markers was carried out in the F2 population through bulked-segregant assay. A total of 180 SSR markers selected from each chromosome equally were surveyed. The results revealed that only two polymorphic markers, RM247 and RM463, located on chromosome 12, were linked to the resistance (R) gene. To further define the chromosomal location of the R gene locus, the second round of linkage analysis was performed using additional five SSR markers, which located in the region anchored by markers RM247 and RM463. The locus was further mapped to a 0.27 cM region bounded by markers RM27933 and RM27940 in the pericentromeric region towards the short arm. For fine mapping of the R locus, seven new markers were developed in the smaller region for the third round of linkage analysis, based on the reference sequences. The R locus was further mapped to a 0.18 cM region flanked by marker clusters 39M11 and 39M22, which is closest to, but away from the Pita/Pita 2 locus by 0.09 cM. To physically map the locus, all the linked markers were landed on the respective bacterial artificial chromosome clones of the reference cv. Nipponbare. Sequence information of these clones was used to construct a physical map of the locus, in silico, by bioinformatics analysis. The locus was physically defined to an interval of ≈37 kb. To further characterize the R gene, five R genes mapped near the locus, as well as 10 main R genes those might be exploited in the resistance breeding programs, were selected for differential tests with 475 Chinese isolates. The R gene carrier Q15 conveys resistances distinct from those conditioned by the carriers of the 15 R genes. Together, this valuable R gene was, therefore, designated as Pi39(t). The sequence information of the R gene locus could be used for further marker-based selection and cloning.

Published

2007