Your search keyword '"Yuan Yin Cao"' showing total 14 results

1. Virulence structure and its genetic diversity analyses of Blumeria graminis f. sp. tritici isolates in China

Author

Xian Xin Wu, Xiao Feng Xu, De Xin Ma, Rong Zhen Chen, Tian Ya Li, and Yuan Yin Cao

Subjects

Blumeria graminis f. sp. tritici, Genetic diversity, Virulence diversity, EST-SSR, Wheat powdery mildew, Pm gene, Evolution, QH359-425

Abstract

Abstract Background Blumeria graminis f. sp. tritici (Bgt), the causal agent of wheat powdery mildew severely affects yield security wheat production in China. Understanding the virulence structure and genetic variations of this pathogen is important for breeding wheat lines resistant to wheat powdery mildew. However, information related to genes controlling resistance remains elusive. This study analyzes the virulence structure and the genetic diversity of pathogenic Bgt populations isolated from northeastern (Liaoning, Heilongjiang) and northwestern (Gansu) China, two representative wheat producing areas, on 37 wheat cultivars each carrying a known powdery mildew resistance (Pm) gene. Results Bgt isolates from northeastern China show higher frequencies of virulence genes than populations from Gansu Province. Many of the known Pm genes failed to provide resistance in this study. However, Pm21 provided 100% resistance to all isolates from all three provinces, obtained during two consecutive years, while Pm13 provided 100% resistance in Gansu. Pm13, Pm16, Pm18, and Pm22 also showed partial resistance in northeastern China, while Pm16, Pm18, Pm22, Pm5 + 6 and Pm2 + 6 +? maintained some resistance in Gansu. Genetic diversity among populations in different regions was detected by cluster analyses using expressed sequence tag-simple sequence repeat (EST-SSR). When the genetic similarity coefficient is relatively high, populations from the same regional origin are mostly clustered into one group while populations from different regions exhibit large genetic differences. Conclusion Pm21 remains the best choice for breeding programs to maintain resistance to Bgt. Only 58% of the isolates tested show a clear correlation between EST-SSR genetic polymorphisms and frequency of virulence gene data.

Published

2019

2. Race and virulence characterization of Puccinia graminis f. sp. tritici in China.

Author

Tian Ya Li, Yu Chen Ma, Xian Xin Wu, Si Chen, Xiao Feng Xu, Hao Wang, Yuan Yin Cao, and Yuan Hu Xuan

Subjects

Medicine, Science

Abstract

Wheat stem rust was once the most destructive plant disease, but it has been largely controlled. However, to prevent future problems, the ongoing development of resistant wheat varieties requires knowledge of the changing virulence patterns for Pgt virulence of the fungus that causes wheat stem rust and the detection of new races. Surveys were conducted from 2013-2014 to determine the races of the Pgt present in China. Low levels of stem rust infections were found in China during this investigation and 11 Puccinia graminis f. sp. tritici (Pgt) samples were obtained. In addition, 22 Pgt samples collected from the alternate host (Berberis) were obtained and have been reported for the first time. Fifty-three isolates were obtained from all samples. Four race groups, including 13 physiological races, were identified. They included the most prevalent races, 34C3MTGQM and 34C6MRGQM, with 13.2% predominance, followed by 34C0MRGQM at 11.3%. Six new races that were virulent against the resistance genes, Sr5 + Sr11, were found for the first time in China, namely 34C0MRGQM, 34C3MTGQM, 34C3MKGQM, 34C3MKGSM, 34C6MTGSM, and 34C6MRGQM, with a predominance of 11.3, 13.2, 9.4, 9.4, 1.9, and 13.2%, respectively. Most of the genes studied were ineffective against one or more of the tested isolates, except Sr9e, Sr21, Sr26, Sr31, Sr33, Sr38, Sr47, and SrTt3. Genes Sr35, SrTmp, Sr30, Sr37, Sr17, and Sr36 were effective in 92.5, 86.8, 84.9, 84.9, 79.3, and 77.4% of the tested isolates, respectively. In contrast, all of the isolates were virulent against Sr6, Sr7b, Sr9a, Sr9b, Sr9d, Sr9g, and SrMcN. Our results indicate that remarkable differences exist among the categories of the races in this study (i.e., their known virulence gene spectra) and the Pgt races reported previously. In addition, the sexual cycle of Pgt may contribute to its diversity in China.

Published

2018

3. Evaluation and identification of stem rust resistance genes Sr2, Sr24, Sr25, Sr26, Sr31 and Sr38 in wheat lines from Gansu Province in China

Author

Xiao Feng Xu, Dan Dan Li, Yang Liu, Yue Gao, Zi Yuan Wang, Yu Chen Ma, Shuo Yang, Yuan Yin Cao, Yuan Hu Xuan, and Tian Ya Li

Subjects

Wheat stem rust, Marker, Resistance genes, Ug99, Wheat cultivars, Medicine, Biology (General), QH301-705.5

Abstract

Wheat stem rust, caused by Puccinia granimis f. sp. tritici, severely affects wheat production, but it has been effectively controlled in China since the 1970s. However, the appearance and spread of wheat stem rust races Ug99 (TTKSK, virulence to Sr31), TKTTF (virulence to SrTmp) and TTTTF (virulence to the cultivars carrying Sr9e and Sr13) have received attention. It is important to clarify the effectiveness of resistance genes in a timely manner, especially for the purpose of using new resistance genes in wheat cultivars for durable-resistance. However, little is known about the stem rust resistance genes present in widely used wheat cultivars from Gansu. This study aimed to determine the resistance level at the seedling stage of the main wheat cultivars in Gansu Province. A secondary objective was to assess the prevalence of Sr2, Sr24, Sr25, Sr26, Sr31, and Sr38 using molecular markers. The results of the present study indicated that 38 (50.7%) wheat varieties displayed resistance to all the tested races of Puccinia graminis f. sp. tritici. The molecular marker analysis showed that 13 out of 75 major wheat cultivars likely carried Sr2; 25 wheat cultivars likely carried Sr31; and nine wheat cultivars likely carried Sr38. No cultivar was found to have Sr25 and Sr26, as expected. Surprisingly, no wheat cultivars carried Sr24. The wheat lines with known stem rust resistance genes could be used as donor parent for further breeding programs.

Published

2017

4. Seedling Resistance to Stem Rust and Molecular Marker Analysis of Resistance Genes in Wheat Cultivars of Yunnan, China.

Author

Tian Ya Li, Yuan Yin Cao, Xian Xin Wu, Xiao Feng Xu, and Wan Lin Wang

Subjects

Medicine, Science

Abstract

Stem rust is one of the most potentially harmful wheat diseases, but has been effectively controlled in China since 1970s. However, the interest in breeding wheat with durable resistance to stem rust has been renewed with the emergence of Ug99 (TTKSK) virulent to the widely used resistance gene Sr31, and by which the wheat stem rust was controlled for 40 years in wheat production area worldwide. Yunnan Province, located on the Southwest border of China, is one of the main wheat growing regions, playing a pivotal role in the wheat stem rust epidemic in China. This study investigated the levels of resistance in key wheat cultivars (lines) of Yunnan Province. In addition, the existence of Sr25, Sr26, Sr28, Sr31, Sr32, and Sr38 genes in 119 wheat cultivars was assessed using specific DNA markers. The results indicated that 77 (64.7%) tested wheat varieties showed different levels of resistance to all the tested races of Puccinia graminis f. sp. tritici. Using molecular markers, we identified the resistance gene Sr31 in 43 samples; Sr38 in 10 samples; Sr28 in 12 samples, and one sample which was resistant against Ug99 (avirulent to Sr32). No Sr25 or Sr26 (effective against Ug99) was identified in any cultivars tested. Furthermore, 5 out of 119 cultivars tested carried both Sr31 and Sr38 and eight contained both Sr31 and Sr28. The results enable the development of appropriate strategies to breed varieties resistant to stem rust.

Published

2016

5. Postulation of seedling stem rust resistance genes of Yunnan wheat cultivars in China

Author

Tian-Ya LI, Xian-Xin WU, Xiao-Feng XU, Wan-Lin WANG, and Yuan-Yin CAO

Subjects

triticum aestivum l., puccinia graminis, sr gene, gene postulation, Plant culture, SB1-1110

Abstract

To determine stem rust resistance genes of wheat varieties in Yunnan province, 11 Chinese strains of Puccinia graminis f.sp. tritici with different virulence and 1 artificial mutant strain were used in 110 wheat varieties. The results indicated that among the 45 Sr genes, Sr31, Sr5, SrTmp, Sr30, Sr36, Sr8a, Sr11, Sr24, Sr29, Sr34, Sr9e, Sr26, Sr38, Sr47, and SrTt3 were characterised in 55 wheat varieties singly or in combination. Sr5, Sr31, SrTmp, Sr36, and Sr30 were contained in 17, 16, 5, 5, and 3 cultivars, respectively. Six cultivars contained Sr24 and/or Sr34. Three plant materials likely contained one or more of Sr8a, Sr11, Sr34, and Sr23 genes as well as other unknown genes. The 16 immune or highly resistant varieties contained one or more of Sr9e, Sr26, Sr38, Sr47, SrTt3, and other unknown resistance genes. The reaction types on 22 of the tested cultivars were different from those on Sr genes tested, and their resistance genes could not be analysed. Additionally, 17 varieties were susceptible to all the tested strains, having no postulation value. Our study provides a basis for improved breeding of stem rust resistant wheat in China.

Published

2016

6. Effects of early administration of insulin-like growth factor-1 on cognitive function in septic encephalopathy

Author

Fei Gao, Yuqian Li, Lihong Li, Shengru Liang, Yang Yang, Yuan Yin Cao, Xiaoyu Zhao, and Guodong Gao

Subjects

medicine.medical_specialty, biology, business.industry, Cytochrome c, medicine.medical_treatment, Hippocampus, Cognition, medicine.disease, 030227 psychiatry, Sepsis, 03 medical and health sciences, Insulin-like growth factor, 0302 clinical medicine, Endocrinology, Apoptosis, Internal medicine, biology.protein, Noxious stimulus, Medicine, business, 030217 neurology & neurosurgery, Survival analysis

Abstract

Background Both protective and therapeutic functions of insulin-like growth factor-1 (IGF-1) in brain injury have been reported, but its effects on cognitive sequelae after septic encephalopathy (SE) remain unclear. Materials and methods This study was divided into three parts, and a septic model was built by cecal ligation and puncture (CLP). First, survival analysis was performed, and IGF-1’s effects on long-term cognition and depressive emotion were assessed. Second, the characteristics of IGF-1 function in cognition were evaluated. Finally, cytochrome C, caspase-9, tumor necrosis factor receptor (TNFR), and caspase-8 levels as well as cell apoptosis in the hippocampus were evaluated. Results IGF-1 did not reduce mortality or alleviate depressive symptoms in septic rats, but improved the memory of noxious stimulation and spatial learning and memory. These effects were observed only when IGF-1 was administered within 0–6 hours after CLP. Moreover, cytochrome C and caspase-9 expression levels were increased at 6 hours after CLP in the hippocampus, while TNFR and caspase-8 amounts were not increased until 12 hours after CLP. Cell apoptosis increased at 12 hours after CLP, but was inhibited by IGF-1. Conclusion Cognitive impairment in rats recovering from SE is associated with cell apoptosis in the hippocampus. Supplementation of IGF-1 reduces cell apoptosis by preventing the over-expression of cytochrome C and TNFR, and results in improved cognitive function. However, improvement only occurs when IGF-1 is administered at the early stage (within 6 hours) of sepsis. As cytochrome C activation occurs earlier than that of TNFR in this study, cytochrome C may be the main factor inducing apoptosis in early SE.

Published

2019

7. Evaluation of resistance to powdery mildew and identification of resistance genes in wheat cultivars

Author

Xian Xin Wu, Yue Gao, Qiang Bian, Qian Sun, Xin Yu Ni, Yan Qiu Sun, Xiao Feng Xu, Yuan Yin Cao, and Tian Ya Li

Subjects

fungi, food and beverages

Abstract

Background: Wheat powdery mildew, caused by the biotrophic fungus Blumeria graminis f. sp. tritici ( Bgt ), is a serious disease of wheat worldwide that can cause significant yield losses. Growing resistant cultivars is the most cost-effective and eco-soundly strategy to manage the disease. Therefore, a high breeding priority is to identify genes that can be readily used either singly or in combination for effective resistance to powdery mildew and alos in combination with genes for resistance to other diseases. Yunnan Province, with complex and diverse ecological environments and climates, is one of the main wheat growing regions in China. This region provides initial inoculum for starting epidemics of wheat powdery mildew in the region and other regions and thus, plays a key role in the regional and large-scale epidemics of the disease throughout China. The objectives of this study were to evaluate seedling resistance of 69 main wheat cultivars to powdery mildew and to determine the presence of resistance genes Pm3 , Pm8 , Pm13 , Pm16 , and Pm21 in these cultivars using gene specific DNA markers. Results: Evaluation of 69 wheat cultivars with six Bgt isolates showed that only four cultivars were resistant to all tested isolates, indicating that the overall level of powdery mildew resistance of Yunnan wheat cultivars is inadequate. The molecular marker results showed that 27 cultivars likely have at least one of these genes. Six cultivars were found likely to have Pm3 , 18 likely to have Pm8 , 5 likely to have Pm16 , and 3 likely to have Pm21 . No cultivar was found to carry Pm13 . Conclusion: The information on the presence of the Pm resistance genes in Yunnan wheat cultivars can be used in future wheat disease breeding programs. In particular, cultivars carrying Pm21 , which is effective against all Bgt races in China, should be pyramided with other effective genes to developing new cultivars with durable resistance to powdery mildew. Keywords: Blumeria graminis f. sp. tritici , Pm gene, molecular markers, wheat

Published

2020

8. Development of a specific AFLP-based SCAR marker for Chinese Race 34MKG of Puccinia graminis f. sp. tritici

Author

Si, Chen, Xue, Yang, Wen-Gong, Huang, Yan, Liu, Ying, Yu, Guang-Wen, Wu, Shu-Quan, Zhang, Tian-Ya, Li, and Yuan-Yin, Cao

Subjects

China, Phenotype, Polymorphism, Genetic, Basidiomycota, Puccinia, Chromosome Mapping, Amplified Fragment Length Polymorphism Analysis, Triticum, Disease Resistance, Microsatellite Repeats, Plant Diseases

Abstract

Wheat stem rust, caused by Puccinia graminis f. sp. tritici (Pgt), is a fungus that causes the devastating fungalwheat stem rust disease in wheat production. Rapid identification of the physiological races of Pgt are very importance for the prevention of wheat stem rust. In this paper we developed a molecular method to identify the most prevalent race of Pgt, as a supplement for traditionally used host-specific methods. Amplified fragment length polymorphism (AFLP) was employed as a means of analyzing DNA polymorphisms in six common physiological races of Pgt in China and Ug99. In total, 64 pairs of primers were used for AFLP screening of race-specific molecular markers. One primer pair-namely, E7/M7 (5'-GACTGCGTACCAATTCG G-3'/5'-GATGAGTCCTGAGTAACGG-3')-yielded a unique band for the race 34MKG that was purified and cloned into the pGEM-T vector for sequencing. We then designed a new primer pairs (sequence-characterized amplified region marker) to amplify the 171-bp fragment and confirmed that the marker was highly specific for 34MKG. These results provide a new tool for monitoring different races of Pgt for improved control of wheat stem rust in China.

Published

2020

9. Race and virulence characterization of Puccinia graminis f. sp. tritici in China

Author

Yuan Yin Cao, Si Chen, Xian Xin Wu, Yuan Hu Xuan, Yu Chen Ma, Hao Wang, Tian Ya Li, and Xiao Feng Xu

Subjects

0106 biological sciences, Veterinary medicine, Leaves, lcsh:Medicine, Plant Science, Stem rust, 01 natural sciences, Race (biology), Medicine and Health Sciences, lcsh:Science, Triticum, Disease Resistance, Multidisciplinary, biology, Ecology, Plant Stems, Virulence, Plant Anatomy, Plant Fungal Pathogens, Eukaryota, Agriculture, 04 agricultural and veterinary sciences, Plants, Spores, Fungal, Plant disease, Infectious Diseases, Wheat, Host-Pathogen Interactions, Research Article, China, Infectious Disease Control, Ecological Metrics, Genes, Fungal, Plant Pathogens, Plant disease resistance, Grasses, Plant Diseases, Puccinia, Host (biology), Basidiomycota, lcsh:R, Ecology and Environmental Sciences, Organisms, Fungi, Biology and Life Sciences, Species Diversity, Plant Pathology, biology.organism_classification, Agronomy, Plant Breeding, Seedlings, 040103 agronomy & agriculture, Berberis, 0401 agriculture, forestry, and fisheries, lcsh:Q, 010606 plant biology & botany

Abstract

Wheat stem rust was once the most destructive plant disease, but it has been largely controlled. However, to prevent future problems, the ongoing development of resistant wheat varieties requires knowledge of the changing virulence patterns for Pgt virulence of the fungus that causes wheat stem rust and the detection of new races. Surveys were conducted from 2013-2014 to determine the races of the Pgt present in China. Low levels of stem rust infections were found in China during this investigation and 11 Puccinia graminis f. sp. tritici (Pgt) samples were obtained. In addition, 22 Pgt samples collected from the alternate host (Berberis) were obtained and have been reported for the first time. Fifty-three isolates were obtained from all samples. Four race groups, including 13 physiological races, were identified. They included the most prevalent races, 34C3MTGQM and 34C6MRGQM, with 13.2% predominance, followed by 34C0MRGQM at 11.3%. Six new races that were virulent against the resistance genes, Sr5 + Sr11, were found for the first time in China, namely 34C0MRGQM, 34C3MTGQM, 34C3MKGQM, 34C3MKGSM, 34C6MTGSM, and 34C6MRGQM, with a predominance of 11.3, 13.2, 9.4, 9.4, 1.9, and 13.2%, respectively. Most of the genes studied were ineffective against one or more of the tested isolates, except Sr9e, Sr21, Sr26, Sr31, Sr33, Sr38, Sr47, and SrTt3. Genes Sr35, SrTmp, Sr30, Sr37, Sr17, and Sr36 were effective in 92.5, 86.8, 84.9, 84.9, 79.3, and 77.4% of the tested isolates, respectively. In contrast, all of the isolates were virulent against Sr6, Sr7b, Sr9a, Sr9b, Sr9d, Sr9g, and SrMcN. Our results indicate that remarkable differences exist among the categories of the races in this study (i.e., their known virulence gene spectra) and the Pgt races reported previously. In addition, the sexual cycle of Pgt may contribute to its diversity in China.

Published

2018

10. Development of a Specific SCAR Marker to Race 21C3CTH of Puccinia graminis f. sp. tritici in China

Author

Si Chen, Yuan-yin Cao, and Tian-ya Li

Subjects

General Agricultural and Biological Sciences

Published

2015

11. Evaluation and identification of stem rust resistance genes Sr2, Sr24, Sr25, Sr26, Sr31 and Sr38 in wheat lines from Gansu Province in China

Author

Yu Chen Ma, Tian Ya Li, Yuan Yin Cao, Zi Yuan Wang, Dan Dan Li, Yang Liu, Xiao Feng Xu, Yue Gao, Yuan Hu Xuan, and Shuo Yang

Subjects

0106 biological sciences, 0301 basic medicine, Wheat cultivars, Virulence, lcsh:Medicine, Resistance genes, Stem rust, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, chemistry.chemical_compound, Molecular marker, Cultivar, Gene, Puccinia, Ug99, biology, General Neuroscience, Wheat stem rust, lcsh:R, food and beverages, General Medicine, Marker, biology.organism_classification, Horticulture, 030104 developmental biology, chemistry, Seedling, General Agricultural and Biological Sciences, 010606 plant biology & botany

Abstract

Wheat stem rust, caused byPuccinia granimisf. sp.tritici, severely affects wheat production, but it has been effectively controlled in China since the 1970s. However, the appearance and spread of wheat stem rust races Ug99 (TTKSK, virulence toSr31), TKTTF (virulence toSrTmp) and TTTTF (virulence to the cultivars carryingSr9eandSr13) have received attention. It is important to clarify the effectiveness of resistance genes in a timely manner, especially for the purpose of using new resistance genes in wheat cultivars for durable-resistance. However, little is known about the stem rust resistance genes present in widely used wheat cultivars from Gansu. This study aimed to determine the resistance level at the seedling stage of the main wheat cultivars in Gansu Province. A secondary objective was to assess the prevalence ofSr2,Sr24,Sr25,Sr26,Sr31, andSr38using molecular markers. The results of the present study indicated that 38 (50.7%) wheat varieties displayed resistance to all the tested races ofPuccinia graminisf. sp.tritici.The molecular marker analysis showed that 13 out of 75 major wheat cultivars likely carriedSr2; 25 wheat cultivars likely carriedSr31; and nine wheat cultivars likely carriedSr38. No cultivar was found to haveSr25andSr26, as expected. Surprisingly, no wheat cultivars carriedSr24. The wheat lines with known stem rust resistance genes could be used as donor parent for further breeding programs.

Published

2017

12. Microsatellite Markers Linked to Stem Rust Resistance Gene Sr33 in Wheat

Author

Qiang Yao, Yuan-Yin Cao, Han Jiandong, Wei-Hua Li, and Zhi-Yuan Gong

Subjects

Genetics, Resistance (ecology), biology, Microsatellite, Plant Science, Stem rust, biology.organism_classification, Agronomy and Crop Science, Gene, Biotechnology

Published

2013

13. Seedling Resistance to Stem Rust and Molecular Marker Analysis of Resistance Genes in Wheat Cultivars of Yunnan, China

Author

Xian Xin Wu, Wan Lin Wang, Yuan Yin Cao, Tian Ya Li, and Xiao Feng Xu

Subjects

0106 biological sciences, 0301 basic medicine, Genetic Screens, Plant genetics, Gene Identification and Analysis, lcsh:Medicine, Artificial Gene Amplification and Extension, Stem rust, 01 natural sciences, Polymerase Chain Reaction, Biochemistry, chemistry.chemical_compound, Molecular marker, Nucleic Acids, Cultivar, lcsh:Science, Triticum, Disease Resistance, Multidisciplinary, biology, Wheat diseases, Chromosome Biology, food and beverages, Agriculture, Plants, Chromosomal Aberrations, Wheat, Translocations, Ug99, Research Article, China, Crops, Genes, Plant, Research and Analysis Methods, Chromosomes, 03 medical and health sciences, Genetics, Plant breeding, Grasses, Molecular Biology Techniques, Molecular Biology, Plant Diseases, Puccinia, Basidiomycota, lcsh:R, Organisms, Biology and Life Sciences, DNA, Cell Biology, biology.organism_classification, Agronomy, Plant Breeding, 030104 developmental biology, chemistry, Seedlings, lcsh:Q, Biomarkers, 010606 plant biology & botany, Crop Science, Cereal Crops

Abstract

Stem rust is one of the most potentially harmful wheat diseases, but has been effectively controlled in China since 1970s. However, the interest in breeding wheat with durable resistance to stem rust has been renewed with the emergence of Ug99 (TTKSK) virulent to the widely used resistance gene Sr31, and by which the wheat stem rust was controlled for 40 years in wheat production area worldwide. Yunnan Province, located on the Southwest border of China, is one of the main wheat growing regions, playing a pivotal role in the wheat stem rust epidemic in China. This study investigated the levels of resistance in key wheat cultivars (lines) of Yunnan Province. In addition, the existence of Sr25, Sr26, Sr28, Sr31, Sr32, and Sr38 genes in 119 wheat cultivars was assessed using specific DNA markers. The results indicated that 77 (64.7%) tested wheat varieties showed different levels of resistance to all the tested races of Puccinia graminis f. sp. tritici. Using molecular markers, we identified the resistance gene Sr31 in 43 samples; Sr38 in 10 samples; Sr28 in 12 samples, and one sample which was resistant against Ug99 (avirulent to Sr32). No Sr25 or Sr26 (effective against Ug99) was identified in any cultivars tested. Furthermore, 5 out of 119 cultivars tested carried both Sr31 and Sr38 and eight contained both Sr31 and Sr28. The results enable the development of appropriate strategies to breed varieties resistant to stem rust.

Published

2016

14. [Identification for genetically modified maize T14/T25 with real time fluorescent PCR method]

Author

Ji-Juan, Cao, Wen, Qin, Shui-Fang, Zhu, and Yuan-Yin, Cao

Subjects

DNA, Plant, Genes, Plant, Plants, Genetically Modified, Polymerase Chain Reaction, Zea mays, DNA Primers, Plasmids

Abstract

To identify genetically modified (GM) maize T14/T25 lines, a real-time fluorescent PCR (RTF PCR) assay was performed in this study. Primers and Taqman probes specific for inserted genes in the T14/T25 were used to conduct the real-time fluorescent (RTF) PCR and PCR assays. The RTF PCR method was established to detect and identify GM maize lines. The results show that the TaqMan probe could identify T14/T25 maize used, while other GM and NO-GM maize didn't be detected. The RTF PCR could be a new method for detecting other genetically modified organism.

Published

2005