Your search keyword '"Liu, Jiayong"' showing total 10 results

1. A Comprehensive Analysis of Transcriptomics and Metabolomics Revealed Key Pathways Involved in Saccharum spontaneum Defense against Sporisorium scitamineum .

Author

Hu X, Luo Z, Xu C, Wu Z, Wu C, Ebid MHM, Zan F, Zhao L, Liu X, and Liu J

Subjects

Gene Expression Profiling, Indoleacetic Acids metabolism, Plant Diseases genetics, Gene Expression Regulation, Plant, Saccharum genetics, Saccharum metabolism, Basidiomycota genetics, Ustilaginales genetics

Abstract

Sugarcane smut, caused by Sporisorium scitamineum , poses a severe threat to sugarcane production. The genetic basis of sugarcane resistance to S. scitamineum remains elusive. A comparative transcriptomic and metabolomic study was conducted on two wild Saccharum species of S. spontaneum with contrast smut resistance. Following infection, the resistant line exhibited greater down-regulation of genes and metabolites compared to the susceptible line, indicating distinct biological processes. Lignan and lignin biosynthesis and SA signal transduction were activated in the resistant line, while flavonoid biosynthesis and auxin signal transduction were enhanced in the susceptible line. TGA2.2 and ARF14 were identified as playing positive and negative roles, respectively, in plant defense. Exogenous auxin application significantly increased the susceptibility of S. spontaneum to S. scitaminum . This study established the significant switching of defense signaling pathways in contrast-resistant S. spontaneum following S. scitamineum infection, offering a hypothetical model and candidate genes for further research into sugarcane smut disease.

Published

2024

2. Genome-wide DNase I-hypersensitive site assay reveals distinct genomic distributions and functional features of open chromatin in autopolyploid sugarcane.

Author

Yu G, Sun B, Zhu Z, Mehareb EM, Teng A, Han J, Zhang H, Liu J, Liu X, Raza G, Zhang B, Zhang Y, and Wang K

Subjects

Deoxyribonuclease I genetics, Deoxyribonuclease I metabolism, Plant Breeding, Genomics, Polyploidy, Chromatin, Saccharum genetics, Saccharum metabolism, Succinates

Abstract

The characterization of cis-regulatory DNA elements (CREs) is essential for deciphering the regulation of gene expression in eukaryotes. Although there have been endeavors to identify CREs in plants, the properties of CREs in polyploid genomes are still largely unknown. Here, we conducted the genome-wide identification of DNase I-hypersensitive sites (DHSs) in leaf and stem tissues of the auto-octoploid species Saccharum officinarum. We revealed that DHSs showed highly similar distributions in the genomes of these two S. officinarum tissues. Notably, we observed that approximately 74% of DHSs were located in distal intergenic regions, suggesting considerable differences in the abundance of distal CREs between S. officinarum and other plants. Leaf- and stem-dependent transcriptional regulatory networks were also developed by mining the binding motifs of transcription factors (TFs) from tissue-specific DHSs. Four TEOSINTE BRANCHED 1, CYCLOIDEA, and PCF1 (TCP) TFs (TCP2, TCP4, TCP7, and TCP14) and two ethylene-responsive factors (ERFs) (ERF109 and ERF03) showed strong causal connections with short binding distances from each other, pointing to their possible roles in the regulatory networks of leaf and stem development. Through functional validation in transiently transgenic protoplasts, we isolate a set of tissue-specific promoters. Overall, the DHS maps presented here offer a global view of the potential transcriptional regulatory elements in polyploid sugarcane and can be expected to serve as a valuable resource for both transcriptional network elucidation and genome editing in sugarcane breeding., (© 2023 Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2024

3. Haplotype variations of sucrose phosphate synthase B gene among sugarcane accessions with different sucrose content.

Author

Liu H, Lin X, Li X, Luo Z, Lu X, You Q, Yang X, Xu C, Liu X, Liu J, Wu C, and Wang J

Subjects

Haplotypes, Sucrose, Glucosyltransferases genetics, Saccharum genetics

Abstract

Background: Sucrose phosphate synthase B (SPSB) gene encoding an important rate-limiting enzyme for sucrose synthesis in sugarcane is mainly expressed on leaves, where its alleles control sucrose synthesis. In this study, genetic variation of SPSB gene represented by different haplotypes in sugarcane was investigated in hybrid clones with high and low sugar content and various accessory species., Results: A total of 39 haplotypes of SPSB gene with 2, 824 bp in size were identified from 18 sugarcane accessions. These haplotypes mainly distributed on Chr3B, Chr3C, and Chr3D according to the AP85-441 reference genome. Single nucleotide polymorphisms (SNPs) and insertion/deletion (InDels) were very dense (42 bp/sequence variation) including 44 transitional and 23 transversional SNPs among the 39 haplotypes. The sequence diversity related Hd, Eta, and Pi values were all lower in clones of high sucrose content (HS) than those in clones of low sucrose content (LS). The evolutionary network analysis showed that about half SPSB haplotypes (19 out of 39) were clustered into one group, including 6 (HAP4, HAP6, HAP7, HAP9, HAP17 and HAP20) haplotypes under positive selection in comparison to HAP26 identified in Badila (S. officinarum), an ancestry noble cane species and under purification selection (except HAP19 under neutral selection) in comparison to HAP18 identified from India1 (S. spontaneum), an ancestry species with low sugar content but high stress tolerance. The average number of haplotypes under positive selection in HS clones was twice as that in LS. Most of the SNPs and InDels sequence variation sites were positively correlated with sucrose and fiber content and negatively correlated with reducing sugar., Conclusions: A total of 39 haplotypes of SPSB gene were identified in this study. Haplotypes potentially associated with high sucrose synthesis efficiency were identified. The mutations of SPSB haplotypes in HS were favorable and tended to be selected and fixed. The results of this study are informative and beneficial to the molecular assisted breeding of sucrose synthesis in sugarcane in the future., (© 2023. The Author(s).)

Published

2023

4. A comprehensive molecular cytogenetic analysis of the genome architecture in modern sugarcane cultivars.

Author

Wang K, Cheng H, Han J, Esh A, Liu J, Zhang Y, and Wang B

Subjects

Chromosome Mapping, Cytogenetic Analysis, Genome, Plant, In Situ Hybridization, Fluorescence, Plant Breeding, Saccharum genetics

Abstract

Modern sugarcane cultivars are derived from the hybridization of Saccharum officinarum (2n = 80) and S. spontaneum (2n = 40-128), leading to a variety of complex genomes with highly polyploid and varied chromosome structures. These complex genomes have hindered deciphering the genome structure and marker-assisted selection in sugarcane breeding. Ten cultivars were analyzed by fluorescence in situ hybridization adopting chromosome painting and S. spontaneum-specific probes. The results showed six types of chromosomes in the studied cultivars, including S. spontaneum or S. officinarum chromosomes, interspecific recombinations from homoeologous or nonhomoeologous chromosomes, and translocations of S. spontaneum or S. officinarum chromosomes. The results showed unexpectedly high proportions of interspecific recombinations in these cultivars (11.9-40.9%), which renew our knowledge that less than 13% of chromosomes result from interspecific exchanges. Also, the results showed a high frequency of translocations (an average of 2.15 translocations per chromosome) between S. officinarum chromosomes. The diverse types of chromosomes in cultivars imply that hybrid gametes of S. spontaneum and S. officinarum may form unusual chromosome pairs, including homoeologous or nonhomoeologous chromosomes either between or within S. spontaneum and S. officinarum. Moreover, we consistently observed 11 or 12 copies for the four studied chromosomes, i.e., chromosomes 1, 2, 7, and 8, suggesting steady transmission during the breeding program. By comparison, we found a relatively fewer copies of S. spontaneum chromosome 1 than those of S. spontaneum chromosomes 2, 7, and 8. These results provide deep insights into the structure of cultivars and may facilitate chromosome-assisted selection in sugarcane breeding., (© 2021. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2022

5. Genetic analysis of agronomic traits in elite sugarcane (Saccharum spp.) germplasm.

Author

Zan F, Zhang Y, Wu Z, Zhao J, Wu C, Zhao Y, Chen X, Zhao L, Qin W, Yao L, Xia H, Zhao P, Yang K, Liu J, and Yang X

Subjects

Crops, Agricultural growth & development, Genome-Wide Association Study, Plant Breeding, Quantitative Trait Loci, Quantitative Trait, Heritable, Saccharum growth & development, Seeds metabolism, Crops, Agricultural genetics, Polymorphism, Genetic, Saccharum genetics, Seeds genetics

Abstract

Sugarcane (Saccharum spp.) is an important economic crop, supplying up to 80% of the table sugar and ~60% of bio-ethanol worldwide. Due to population growth and dwindling fossil-fuel reserves, the demand for sugar and bio-ethanol requires significant improvement in sugarcane production. Breeding sugarcane cultivars with high-performance agronomic traits is undoubtedly the most efficient way to achieve this goal. Therefore, evaluating agronomic traits and dissecting underlying loci are critically important for this aim steps in providing genetic resources and molecular markers for selection. In this study, we assembled a diversity panel of 236 elite sugarcane germplasms originally collected from 12 countries. We evaluated 28 agronomic traits in the diversity panel with three replicates. The diversity panel was genotyped using amplified fragment length polymorphism markers, and a total of 1,359 markers were generated. Through the genome-wide association study, we identified three markers significantly associated with three traits evaluated at a stringent threshold (P < 0.05 after Bonferroni correction). The genotypes of the three associated markers grouped respective trait values into two distinct groups, supporting the reliability of these markers for breeding selection. Our study provides putative molecular markers linked to agronomic traits for breeding robust sugarcane cultivars. Additionally, this study emphasized the importance of sugarcane germplasm introduced from other countries and suggested that the use of these germplasms in breeding programs depends on local industrial needs., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

6. Genetic Improvement of Sugarcane (Saccharum spp.) Contributed to High Sucrose Content in China Based on an Analysis of Newly Developed Varieties.

Author

Zhao, Yong, Liu, Jiayong, Huang, Hairong, Zan, Fenggang, Zhao, Peifang, Zhao, Jun, Deng, Jun, and Wu, Caiwen

Subjects

SUGARCANE, SUCROSE, SACCHARUM, SORGO, CULTIVARS, CROSSBREEDING, SORGHUM

Abstract

In China, sugarcane (Saccharum spp.) hybrid cross-breeding began in 1953; approximately 70 years since then, >100 commercial sugarcane varieties have been created. In this study, 88 commercial varieties bred in China between 1953 and 2010 and 12 original foundational varieties were planted to investigate the effect of improving sugarcane varieties in China. Considering 20 years as a time node, the commercial varieties were classified into four improved generations. Retrospective analysis showed significant improvements in sucrose and other technological characteristics of commercial sugarcane varieties. The adoption of improved varieties over generations has continuously increased sugarcane's sucrose, juice sugar, and gravity purity, and the difference was significant between Gen1 and Gen3, and between Gen2 and Gen4. Gen4 showed 2.06%, 2.35%, and 3.69% higher sugarcane sucrose (p < 0.01), juice sugar (p < 0.01), and purity (p < 0.05), respectively, and 1.13% lower sugarcane fiber (p < 0.01) than Gen1, the original foundational hybrid varieties. The development of new varieties has improved the technological characteristics of Chinese sugarcane. Sugarcane sucrose, juice sugar, and purity showed an increasing trend. Sugarcane fiber content did not significantly change with the development of new varieties but declined in comparison with the original foundational hybrid varieties. [ABSTRACT FROM AUTHOR]

Published

2022

7. New Method for Sugarcane (Saccharum spp.) Variety Resources Evaluation by Projection Pursuit Clustering Model.

Author

Zhao, Yong, Zhang, Yuebin, Zhao, Jun, Zan, Fenggang, Zhao, Peifang, Deng, Jun, Wu, Caiwen, and Liu, Jiayong

Subjects

SACCHARUM, CULTIVARS, GAUSSIAN distribution, DATA structures, DATA analysis

Abstract

In the breeding of new sugarcane varieties, the survey data do not always conform with a normal or linear distribution. To apply non-normal or non-linear data to evaluate new material requires a suitable evaluation model or method. The projection pursuit clustering (PPC) model is a statistical method that does not require making normal assumptions or other model assumptions on sample data, and is suitable to analyze high-dimensional, non-linear, and non-normal data. However, this model has been applied infrequently to crop variety evaluation. In this study, 103 varieties that have been bred over the last 70 years in China were planted, and their main industrial and agronomic traits were collected. Through the exploratory analysis of the data structure characteristics, the PPC model was used to evaluate these sugarcane varieties. The model provided good projection directions of agronomic and industrial traits, with accurate projection values. PPC models could evaluate sugarcane resources well, and the results were objective and reliable. Thus, the PPC model could be used as a new method for crop variety evaluation. At the same time, 51 excellent industrial and agronomic variety resources were screened for application in breeding. [ABSTRACT FROM AUTHOR]

Published

2022

8. Improvements in Sugarcane (Saccharum spp.) Varieties and Parent Traceability Analysis in Yunnan, China.

Author

Zhao, Yong, Zan, Fenggang, Deng, Jun, Zhao, Peifang, Zhao, Jun, Wu, Caiwen, Liu, Jiayong, and Zhang, Yuebin

Subjects

SUGARCANE, SACCHARUM, SUGARCANE growing, DISEASE incidence, CHINESE history

Abstract

Sugarcane (Saccharum spp.) breeding in China has a history of nearly 70 years. Yunnan province represents the second largest sugarcane planting area in China; therefore, by studying the evolution of sugarcane varieties in this region, it is possible to gain an understanding of the process of improvement since the foundation of sugarcane hybrid breeding. In this study, we compared the main industrial and agronomical characteristics of 107 sugarcane varieties, developed between 1952 and 2020, and discussed the reasons for replacement and exchange. Overall, significant differences were observed (p < 0.01), highlighting notable improvements, especially in terms of yield; however, disease incidence remains a serious issue and the fundamental reason for variety replacement. Meanwhile, analysis of parent traceability revealed that the main varieties cultivated at present have a similar parental relationship based around CP, F, and YC series germplasms. Taken together, these findings suggest that disease-resistant breeding should be strengthened, and susceptible varieties eliminated, while making full use of existing varieties as core parents. [ABSTRACT FROM AUTHOR]

Published

2022

9. Genetic diversity analysis on 68 foreign sugarcane germplasms (Saccharum spp.) with AFLP technique

Author

Yang Kun, Liu XinLong, Zhao PeiFang, Wu CaiWen, Zan FengGang, Chen XueKuan, Liu JiaYong, Ying XiongMei, and Zhao Jun

Subjects

Germplasm, Saccharum, Genetic diversity, biology, Genetic marker, Botany, Amplified fragment length polymorphism, biology.organism_classification

Published

2014

10. Correction: Genetic analysis of agronomic traits in elite sugarcane (Saccharum spp.) germplasm.

Author

Zan, Fenggang, Zhang, Yuebin, Wu, Zhuandi, Zhao, Jun, Wu, Caiwen, Zhao, Yong, Chen, Xuekuan, Zhao, Liping, Qin, Wei, Yao, Li, Xia, Hongming, Zhao, Peifang, Yang, Kun, Liu, Jiayong, and Yang, Xiping

Subjects

ELITE (Social sciences), GERMPLASM, SACCHARUM, SUGARCANE, PLANT germplasm

Abstract

In the Funding statement, the grant number from the funder Less Developed Regions of the National Natural Science Foundation of China is listed incorrectly. Reference 1 Zan F, Zhang Y, Wu Z, Zhao J, Wu C, Zhao Y, et al. (2020) Genetic analysis of agronomic traits in elite sugarcane ( I Saccharum spp i .). [Extracted from the article]

Published

2021