Your search keyword '"Shixiao La"' showing total 6 results

1. New molecular markers and cytogenetic probes enable chromosome identification of wheat-Thinopyrum intermedium introgression lines for improving protein and gluten contents

Author

Zujun Yang, Ennian Yang, Shixiao La, Hongjin Wang, Guangrong Li, Jianbo Li, and Tao Lang

Subjects

Genetic Markers, 0106 biological sciences, 0301 basic medicine, food.ingredient, Glutens, Introgression, Plant Science, Poaceae, 01 natural sciences, Genome, Chromosomes, Plant, 03 medical and health sciences, food, Species Specificity, Thinopyrum, Genetics, medicine, In Situ Hybridization, Fluorescence, Triticum, Plant Proteins, medicine.diagnostic_test, biology, Hybridization probe, High-Throughput Nucleotide Sequencing, Chromosome, biology.organism_classification, Plant Breeding, 030104 developmental biology, Genetic marker, DNA Transposable Elements, Thinopyrum intermedium, Hybridization, Genetic, DNA Probes, Genome, Plant, 010606 plant biology & botany, Fluorescence in situ hybridization

Abstract

New molecular markers were developed for targeting Thinopyrum intermedium 1St#2 chromosome, and novel FISH probe representing the terminal repeats was produced for identification of Thinopyrum chromosomes. Thinopyrum intermedium has been used as a valuable resource for improving the disease resistance and yield potential of wheat. A wheat-Th. intermedium ssp. trichophorum chromosome 1St#2 substitution and translocation has displayed superior grain protein and wet gluten content. With the aim to develop a number of chromosome 1St#2 specific molecular and cytogenetic markers, a high throughput, low-cost specific-locus amplified fragment sequencing (SLAF-seq) technology was used to compare the sequences between a wheat-Thinopyrum 1St#2 (1D) substitution and the related species Pseudoroegneria spicata (St genome, 2n = 14). A total of 5142 polymorphic fragments were analyzed and 359 different SLAF markers for 1St#2 were predicted. Thirty-seven specific molecular markers were validated by PCR from 50 randomly selected SLAFs. Meanwhile, the distribution of transposable elements (TEs) at the family level between wheat and St genomes was compared using the SLAFs. A new oligo-nucleotide probe named Oligo-pSt122 from high SLAF reads was produced for fluorescence in situ hybridization (FISH), and was observed to hybridize to the terminal region of 1St#L and also onto the terminal heterochromatic region of Th. intermedium genomes. The genome-wide markers and repetitive based probe Oligo-pSt122 will be valuable for identifying Thinopyrum chromosome segments in wheat backgrounds.

Published

2016

2. Precise identification of wheat - Thinopyrum intermedium translocation chromosomes carrying resistance to wheat stripe rust in line Z4 and its derived progenies

Author

Qiheng Chen, Bin Li, Guangrong Li, Shixiao La, Zujun Yang, Tao Lang, Jianbo Li, Ennian Yang, and Zhihui Yu

Subjects

0106 biological sciences, 0301 basic medicine, Chromosomal translocation, Biology, Plant disease resistance, 01 natural sciences, Chromosomes, Plant, Translocation, Genetic, 03 medical and health sciences, Chromosome Breakpoints, Genetics, Molecular Biology, Triticum, Disease Resistance, Basidiomycota, food and beverages, Chromosome, Stripe rust, Karyotype, General Medicine, biology.organism_classification, 030104 developmental biology, Genetic marker, Thinopyrum intermedium, Line (text file), 010606 plant biology & botany, Biotechnology

Abstract

The wheat – Thinopyrum intermedium derived line Z4 has displayed novel and effective stripe rust resistance for over 40 years. This study aimed to precisely identify the chromosome constitution of line Z4 and determine the stripe rust resistance contribution using multicolor fluorescent in situ hybridization (FISH) and molecular marker analysis. The results indicated that the Z4 line (2n = 44) contained two pairs of non-Robertsonian translocations without the 3A chromosomes of wheat. FISH karyotypes of F3 progenies derived from crosses between Z4 and MY11 indicated that the transmission of the translocated chromosomes appeared normal and the number of wheat chromosomes 3A and 3D frequently varied. The FISH signal distribution of a new repetitive probe, named Oligo-3A1, confirmed the physical breakage points on chromosome 3AL incorporated into translocated chromosomes. PLUG markers revealed the breakage points on chromosomes 3A, 7JS, and 3D invloved in the translocated chromosomes, and they were designated as T3DS-3AS.3AL-7JSS and T3AL-7JSS.7JSL. Stripe rust resistances surveys indicated that the proximal region of 7JSS or 7JSL may confer the resistance at the adult plant stage. The precise characterization of the chromosome complements of wheat – Th. intermedium Z4 and derived progenies has demonstrated the importance of combining cytogenetic and molecular approaches in the genomics era for further wheat genetic manipulation and breeding purposes.

Published

2018

3. Molecular cytogenetic characterization of Dasypyrum breviaristatum chromosomes in wheat background revealing the genomic divergence between Dasypyrum species

Author

Shixiao La, Jianbo Li, Guangrong Li, Hongjin Wang, Hongjun Zhang, jiwei Ma, Zujun Yang, and Dan Gao

Subjects

0106 biological sciences, 0301 basic medicine, Dasypyrum breviaristatum, medicine.medical_specialty, Dasypyrum, Molecular marker, Plant disease resistance, Biology, 01 natural sciences, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Genetics, medicine, Genetics(clinical), Molecular Biology, Gene, Genetics (clinical), Biochemistry, medical, medicine.diagnostic_test, Research, Fluorescence in situ hybridization, Biochemistry (medical), Cytogenetics, food and beverages, biology.organism_classification, 030104 developmental biology, chemistry, Wheat, Molecular Medicine, 010606 plant biology & botany

Abstract

Background The uncultivated species Dasypyrum breviaristatum carries novel diseases resistance and agronomically important genes of potential use for wheat improvement. The development of new wheat-D. breviaristatum derivatives lines with disease resistance provides an opportunity for the identification and localization of resistance genes on specific Dasypyrum chromosomes. The comparison of wheat-D. breviaristatum derivatives to the wheat-D. villosum derivatives enables to reveal the genomic divergence between D. breviaristatum and D. villosum. Results The mitotic metaphase of the wheat- D. breviaristatum partial amphiploid TDH-2 and durum wheat -D. villosum amphiploid TDV-1 were studied using multicolor fluorescent in situ hybridization (FISH). We found that the distribution of FISH signals of telomeric, subtelomeric and centromeric regions on the D. breviaristatum chromosomes was different from those of D. villosum chromosomes by the probes of Oligo-pSc119.2, Oligo-pTa535, Oligo-(GAA)7 and Oligo-pHv62-1. A wheat line D2139, selected from a cross between wheat lines MY11 and TDH-2, was characterized by FISH and PCR-based molecular markers. FISH analysis demonstrated that D2139 contained 44 chromosomes including a pair of D. breviaristatum chromosomes which had originated from the partial amphiploid TDH-2. Molecular markers confirmed that the introduced D. breviaristatum chromosomes belonged to homoeologous group 7, indicating that D2139 was a 7Vb disomic addition line. The D2139 displayed high resistance to wheat stripe rust races at adult stage plant, which may be inherited from, D. breviaristatum chromosome 7Vb. Conclusion The study present here revealed that the large divergence between D. breviaristatum and D. villosum with respected to the organization of different repetitive sequences. The identified wheat- D. breviaristatum chromosome addition line D2139 will be used to produce agronomically desirable germplasm for wheat breeding.

Published

2016

4. Characterization of wheat-Secale africanum chromosome 5R(a) derivatives carrying Secale specific genes for grain hardness

Author

Guangrong Li, Jianbo Li, Weilin He, Zujun Yang, Shixiao La, Ennian Yang, Hongjin Wang, and Dan Gao

Subjects

0106 biological sciences, 0301 basic medicine, Secale, Genetic Markers, Robertsonian translocation, Chromosomal translocation, Plant Science, Biology, medicine.disease_cause, Genes, Plant, 01 natural sciences, Genome, Chromosomes, Plant, 03 medical and health sciences, Hardness, Genetics, medicine, Cloning, Molecular, Gene, In Situ Hybridization, Fluorescence, Triticum, Disease Resistance, Plant Diseases, medicine.diagnostic_test, Basidiomycota, food and beverages, Chromosome, biology.organism_classification, 030104 developmental biology, Genetic marker, Seeds, Edible Grain, 010606 plant biology & botany, Fluorescence in situ hybridization

Abstract

New wheat- Secale africanum chromosome 5R a substitution and translocation lines were developed and identified by fluorescence in situ hybridization and molecular markers, and chromosome 5R a specific genes responsible for grain hardness were isolated. The wild species, Secale africanum Stapf. (genome RaRa), serves as a valuable germplasm resource for increasing the diversity of cultivated rye (S. cereale L., genome RR) and providing novel genes for wheat improvement. In the current study, fluorescence in situ hybridization (FISH) and molecular markers were applied to characterize new wheat–S. africanum chromosome 5Ra derivatives. Labeled rye genomic DNA (GISH) and the Oligo-probes pSc119.2 and pTa535 (FISH) were used to study a wheat–S. africanum amphiploid and a disomic 5Ra (5D) substitution, and to identify a T5DL.5RaS translocation line and 5RaS and 5RaL isotelosome lines. Twenty-one molecular markers were mapped to chromosome 5Ra arms which will facilitate future rapid identification of 5Ra introgressions in wheat backgrounds. Comparative analysis of the molecular markers mapped on 5Ra with homoeologous regions in wheat confirmed a deletion on the chromosome T5DL.5RaS, which suggests that the wheat–S. africanum Robertsonian translocation involving homologous group 5 may not be fully compensating. Complete coding sequences at the paralogous puroindoline-a (Pina) and grain softness protein gene (Gsp-1) loci from S. africanum were cloned and localized onto the short arm of chromosome 5Ra. The S. africanum chromosome 5Ra substitution and translocation lines showed a reduction in the hardness index, which may be associated with the S. africanum- specific Pina and Gsp-1 gene sequences. The present study reports the production of novel wheat–S. africanum chromosome 5Ra stripe rust resistant derivatives and new rye-specific molecular markers, which may find application in future use of wild Secale genome resources for grain quality studies and disease resistance breeding.

Published

2015

5. Molecular basis of Del phenotype in RhD negative population of Zhongshan

Author

Yonggao CHEN, Shaomei WU, Bing YI, and Shixiao LAI

Subjects

rhd-negative, del phenotype, rhce typing, pcr-ssp, Diseases of the blood and blood-forming organs, RC633-647.5, Medicine

Abstract

Objective To conduct serological and molecular study of Del type in RhD-negative donor population in Zhongshan area, so as to improve the diagnosis of Del type. Methods A total of 102 initially RhD-negative samples, collected from December 2017 to February 2019, were classified by RHCE and PCR-SSP genotyping. And 95 cases of truly negative RhD were confirmed by IAT, 28 cases of Del type were identified by absorption and elution test. The phenotype and genotyping characteristics of Del type in Zhongshan area were summarized based on domestic data of relative literature. Results Among 102 initially RhD-negative samples by serological test, 95 were truely RhD-negative, 28 were DELRHD 1227A without any other Del allele. Among them, RHCE antigen type were Ccee in 20(71.4%) cases, CCee in 8(28.6%), with no difference in comparison with other regions in China. The frequency of Del in RhD-negative blood donors was 29.5% (28/95), with difference between Shanghai, Taiwan, and Fuzhou, but no difference between Nanchang, Zhejiang, and Wuhan. Conclusion The study showed that the Del phenotype was closely related to Ce haplotype, and has no difference with other regions in China. The frequency of Del type in RhD negative donors was 29.5%, with regional differences. RHD1227A was the main allele of Del.

Published

2022

6. Molecular cytogenetic characterization of Dasypyrum breviaristatum chromosomes in wheat background revealing the genomic divergence between Dasypyrum species.

Author

Guangrong Li, Dan Gao, Hongjun Zhang, Jianbo Li, Hongjin Wang, Shixiao La, jiwei Ma, and Zujun Yang

Subjects

CYTOGENETICS, MOLECULAR genetics, PLANT chromosomes, WHEAT genetics, PLANT genomes, DISEASE resistance of plants

Abstract

Background: The uncultivated species Dasypyrum breviaristatum carries novel diseases resistance and agronomically important genes of potential use for wheat improvement. The development of new wheat-D. breviaristatum derivatives lines with disease resistance provides an opportunity for the identification and localization of resistance genes on specific Dasypyrum chromosomes. The comparison of wheat-D. breviaristatum derivatives to the wheat-D. villosum derivatives enables to reveal the genomic divergence between D. breviaristatum and D. villosum. Results: The mitotic metaphase of the wheat- D. breviaristatum partial amphiploid TDH-2 and durum wheat -D. villosum amphiploid TDV-1 were studied using multicolor fluorescent in situ hybridization (FISH). We found that the distribution of FISH signals of telomeric, subtelomeric and centromeric regions on the D. breviaristatum chromosomes was different from those of D. villosum chromosomes by the probes of Oligo-pSc119.2, Oligo-pTa535, Oligo-(GAA)7 and Oligo-pHv62-1. A wheat line D2139, selected from a cross between wheat lines MY11 and TDH-2, was characterized by FISH and PCR-based molecular markers. FISH analysis demonstrated that D2139 contained 44 chromosomes including a pair of D. breviaristatum chromosomes which had originated from the partial amphiploid TDH-2. Molecular markers confirmed that the introduced D. breviaristatum chromosomes belonged to homoeologous group 7, indicating that D2139 was a 7Vb disomic addition line. The D2139 displayed high resistance to wheat stripe rust races at adult stage plant, which may be inherited from, D. breviaristatum chromosome 7Vb. Conclusion: The study present here revealed that the large divergence between D. breviaristatum and D. villosum with respected to the organization of different repetitive sequences. The identified wheat- D. breviaristatum chromosome addition line D2139 will be used to produce agronomically desirable germplasm for wheat breeding. [ABSTRACT FROM AUTHOR]

Published

2016