Your search keyword '"Hao, Haiting"' showing total 7 results

1. Comparative Assessment of Habitat Suitability and Niche Overlap of Three Cytospora Species in China.

Author

Yan, Chengcai, Hao, Haiting, Sha, Shuaishuai, Wang, Zhe, Huang, Lili, Kang, Zhensheng, Wang, Lan, and Feng, Hongzu

Subjects

*PHYTOPATHOGENIC microorganisms, *ECOLOGICAL niche, *SPECIES, *ECOLOGICAL impact, *ENGLISH walnut, *EUCALYPTUS, *FRUIT trees, *RAINFALL, *CLIMATE change

Abstract

The plant pathogenic fungus Cytospora is notoriously known for causing woody plant canker diseases, resulting in substantial economic losses to biological forests and fruit trees worldwide. Despite their strong negative ecological impact, the existing and prospective distribution patterns of these plant pathogens in China, according to climate change, have received little attention. In this study, we chose three widely dispersed and seriously damaging species, namely, Cytospora chrysosperma, Cytospora mali, and Cytospora nivea, which are the most common species that damage the Juglans regia, Malus domestica, Eucalyptus, Pyrus sinkiangensis, Populus spp., and Salix spp. in China. We utilized ecological niche modeling to forecast their regional distribution in China under four climate change scenarios (present, SSP 126, SSP 370, and SSP 585). The results show that temperature-related climate factors limit the current distribution ranges of the three species. Currently, the three studied species are highly suitable for northeast, northwest, north, and southwest China. Under future climate scenarios, the distribution ranges of the three species are projected to increase, and the centers of the adequate distribution areas of the three species are expected to shift to high-latitude regions. The three species coexist in China, primarily in the northwest and north regions. The ecological niches of C. chrysosperma and C. nivea are more similar. The distribution range of C. mali can reach the warmer and wetter eastern region, whereas C. chrysosperma and C. nivea are primarily found in drought-prone areas with little rainfall. Our findings can help farmers and planners develop methods to avoid the spread of Cytospora spp. and calculate the costs of applying pesticides to reduce contamination and boost yields. [ABSTRACT FROM AUTHOR]

Published

2024

2. Prediction of Suitable Habitat Distribution of Cryptosphaeria pullmanensis in the World and China under Climate Change.

Author

Yan, Chengcai, Hao, Haiting, Wang, Zhe, Sha, Shuaishuai, Zhang, Yiwen, Wang, Qingpeng, Kang, Zhensheng, Huang, Lili, Wang, Lan, and Feng, Hongzu

Subjects

*GREENHOUSE gas mitigation, *CLIMATE change, *HABITATS, *METEOROLOGICAL charts, *HUMAN migration patterns

Abstract

Years of outbreaks of woody canker (Cryptosphaeria pullmanensis) in the United States, Iran, and China have resulted in massive economic losses to biological forests and fruit trees. However, only limited information is available on their distribution, and their habitat requirements have not been well evaluated due to a lack of research. In recent years, scientists have utilized the MaxEnt model to estimate the effect of global temperature and specific environmental conditions on species distribution. Using occurrence and high resolution ecological data, we predicted the spatiotemporal distribution of C. pullmanensis under twelve climate change scenarios by applying the MaxEnt model. We identified climatic factors, geography, soil, and land cover that shape their distribution range and determined shifts in their habitat range. Then, we measured the suitable habitat area, the ratio of change in the area of suitable habitat, the expansion and shrinkage of maps under climate change, the direction and distance of range changes from the present to the end of the twenty-first century, and the effect of environmental variables. C. pullmanensis is mostly widespread in high-suitability regions in northwestern China, the majority of Iran, Afghanistan, and Turkey, northern Chile, southwestern Argentina, and the west coast of California in the United States. Under future climatic conditions, climate changes of varied intensities favored the expansion of suitable habitats for C. pullmanensis in China. However, appropriate land areas are diminishing globally. The trend in migration is toward latitudes and elevations that are higher. The estimated area of possible suitability shifted eastward in China. The results of the present study are valuable not only for countries such as Morocco, Spain, Chile, Turkey, Kazakhstan, etc., where the infection has not yet fully spread or been established, but also for nations where the species has been discovered. Authorities should take steps to reduce greenhouse gas emissions in order to restrict the spread of C. pullmanensis. Countries with highly appropriate locations should increase their surveillance, risk assessment, and response capabilities. [ABSTRACT FROM AUTHOR]

Published

2023

3. Whole genome sequence of Cryptosphaeria pullmanensis, an important pathogenic fungus potentially threatening crop and forestry production.

Author

Yan, Chengcai, Hao, Haiting, Feng, Hongzu, Wang, Zhe, Sha, Shuaishuai, Li, Meng, Wang, Lan, and Kang, Zhensheng

Subjects

*WHOLE genome sequencing, *PATHOGENIC fungi, *AGRICULTURAL productivity, *GENOMICS, *PLANT cell walls, *TREE farms, *WALNUT, *AGROFORESTRY

Abstract

Many fungal members of the Diatrypaceae family are pathogenic towards plants and are widely distributed globally. Cryptosphaeria pullmanensis is a pathogenic fungus that infects populus and walnut trees, causing their death. We sequenced the genome of C. pullmanensis based on a combination of Nanopore PromethION and Illumina NovaSeq PE150 platforms, and functionally annotated the sequences using a number of open-access databases. This is the first report of the genome-scale assembly and annotation for C. pullmanensis , the first species of the genus Cryptosphaeria to be sequenced. We obtained 13 contigs with an N50 contig size of 7,095,780 bp, a GC content ratio of 43.23% and a genome size of 56.72 Mb with 10,474 putative coding genes. Comparative genomic analysis against the genomes of seven Ascomycetes fungal strains was performed. Among the seven species tested, the Eutypa lata genome displayed the highest similarity to the C. pullmanensis genome in terms of collinearity and homologous gene content. This study has provided a genetic resource that offers extensive information and a framework for future investigations into the transcriptome, proteome, and metabonome of C. pullmanensis to understand its molecular pathogenesis. • This is the first report of the genome-scale assembly and annotation for Cryptosphaeria pullmanensis , the first species of the genus Cryptosphaeria to be sequenced. • The Nanopore PromethION and Illumina NovaSeq PE150 platforms were used to sequence the whole genome of Cryptosphaeria pullmanensis, and functionally annotated the sequences using a number of open-access databases. • Comparative genomic analysis was performed against between Cryptosphaeria pullmanensis and other seven selected pathogenic fungal species. • Cryptosphaeria pullmanensis may infect the host plant through cell wall degrading enzymes, toxin production, fungal virulence factors and interaction with the host. [ABSTRACT FROM AUTHOR]

Published

2023

4. Genome-wide identification of walnut (Juglans regia) PME gene family members and expression analysis during infection with Cryptosphaeria pullmanensis pathogens.

Author

Qin, Ze, Yan, Chengcai, Yang, Kaiying, Wang, Qinpeng, Wang, Zhe, Gou, Changqing, Feng, Hongzu, Jin, Qiming, Dai, Xianxing, Maitikadir, Zulihumar, Hao, Haiting, and Wang, Lan

Subjects

*GENE expression, *GENE families, *ENGLISH walnut, *PECTINESTERASE, *WALNUT

Abstract

Walnuts exhibit a higher resistance to diseases, though they are not completely immune. This study focuses on the Pectin methylesterase (PME) gene family to investigate whether it is involved in disease resistance in walnuts. These 21 genes are distributed across 12 chromosomes, with four pairs demonstrating homology. Variations in conserved motifs and gene structures suggest diverse functions within the gene family. Phylogenetic and collinear gene pairs of the PME family indicate that the gene family has evolved in a relatively stable way. The cis -acting elements and gene ontology enrichment of these genes, underscores their potential role in bolstering walnuts' defense mechanisms. Transcriptomic analyses were conducted under conditions of Cryptosphaeria pullmanensis infestation and verified by RT-qPCR. The results showed that certain JrPME family genes were activated in response, leading to the hypothesis that some members may confer resistance to the disease. • Twenty-one JrPME genes were identified in Juglans regia and grouped into five subfamilies. • The JrPME gene family has direct and indirect disease resistance roles in Juglans regia. • The JrPME gene family responds to the pathogenic fungus Cryptosphaeria pullmanensis when it infects walnut trees. [ABSTRACT FROM AUTHOR]

Published

2024

5. Illumina-based analysis of the rhizosphere microbial communities associated with healthy and wilted Lanzhou lily ( Lilium davidii var. unicolor) plants grown in the field.

Author

Shang, Qianhan, Yang, Guo, Wang, Yun, Wu, Xiukun, Zhao, Xia, Hao, Haiting, Li, Yuyao, Xie, Zhongkui, Zhang, Yubao, and Wang, Ruoyu

Subjects

*RHIZOSPHERE microbiology, *BACILLUS (Bacteria), *FUSARIUM, *TRADITIONAL medicine, *MICROBIAL diversity

Abstract

Lanzhou lily ( Liliumdavidii var. unicolor) is the best edible lily as well as a traditional medicinal plant in China. The microbes associated with plant roots play crucial roles in plant growth and health. However, little is known about the differences of rhizosphere microbes between healthy and wilted Lanzhou lily ( Lilium davidii var. unicolor) plants. The objective of this study was to compare the rhizosphere microbial community and functional diversity of healthy and wilted plants, and to identify potential biocontrol agents with significant effect. Paired end Illumina Mi-Seq sequencing of 16S rRNA and ITS gene amplicons was employed to study the bacterial and fungal communities in the rhizosphere soil of Lanzhou lily plants. BIOLOG technology was adopted to investigate the microbial functional diversity. Our results indicated that there were major differences in the rhizosphere microbial composition and functional diversity of wilted samples compared with healthy samples. Healthy Lanzhou lily plants exhibited lower rhizosphere-associated bacterial diversity than diseased plants, whereas fungi exhibited the opposite trend. The dominant phyla in both the healthy and wilted samples were Proteobacteria and Ascomycota, i.e., 34.45 and 64.01 %, respectively. The microbial functional diversity was suppressed in wilted soil samples. Besides Fusarium, the higher relative abundances of Rhizoctonia, Verticillium, Penicillium, and Ilyonectria ( Neonectria) in the wilted samples suggest they may pathogenetic root rot fungi. The high relative abundances of Bacillus in Firmicutes in healthy samples may have significant roles as biological control agents against soilborne pathogens. This is the first study to find evidence of major differences between the microbial communities in the rhizospheric soil of healthy and wilted Lanzhou lily, which may be linked to the health status of plants. [ABSTRACT FROM AUTHOR]

Published

2016

6. The new flagella-associated collagen-like proteins ClpB and ClpC of Bacillus amyloliquefaciens FZB42 are involved in bacterial motility.

Author

Zhao, Xia, Wang, Ruoyu, Shang, Qianhan, Hao, Haiting, Li, Yuyao, Zhang, Yubao, Guo, Zhihong, Wang, Yun, and Xie, Zhongkui

Subjects

*BACILLUS amyloliquefaciens, *AMINO acid sequence, *C-terminal residues, *SCANNING electron microscopes, *TRANSMISSION electron microscopy

Abstract

Collagen-like proteins (CLPs) share the distinctive Gly-X-Thr repeating amino acid sequence of animal collagens, and contain N- and C-terminal domain making a collagen-like structure in Bacillus amyloliquefaciens FZB42, a plant growth-promoting rhizobacterium. Our previous study demonstrated that CLPs play important roles in biofilm construction and adherence to the surfaces on plant roots. However, bacterial localization of the CLPs remains unclear. Here, disrupted strains on all four clp genes ( clpA , clpB , clpC and clpD ) shown fewer filament than wild-type bacteria in extracellular matrix under scanning electron microscope (SEM). Transmission electron microscopy (TEM) was used to observe the differences on filament which associated on the cell surface, then the CLPs mutation strains showed less flagella than the wild type. Immunogold labeling determined the location that ClpB and ClpC localized on the flagella surface. In addition, western blotting analysis of crude flagella extracts suggested that the ClpB and ClpC are associated to flagella as well. The mutation strains also reduced motility of swimming on the surface of soft agar medium and changed the architectural of microcolony biofilm edge. The study suggests that collagen-like protein ClpB and ClpC, as novel proteins, associated with flagella in B. amyloliquefaciens . [ABSTRACT FROM AUTHOR]

Published

2016

7. Collagen-Like Proteins (ClpA, ClpB, ClpC, and ClpD) Are Required for Biofilm Formation and Adhesion to Plant Roots by Bacillus amyloliquefaciens FZB42.

Author

Zhao, Xia, Wang, Yun, Shang, Qianhan, Li, Yuyao, Hao, Haiting, Zhang, Yubao, Guo, Zhihong, Yang, Guo, Xie, Zhongkui, and Wang, Ruoyu

Subjects

*COLLAGEN, *BIOFILMS, *PLANT roots, *BACILLUS amyloliquefaciens, *BACTERIAL adhesion, *GENETIC code

Abstract

The genes of collagen-like proteins (CLPs) have been identified in a broad range of bacteria, including some human pathogens. They are important for biofilm formation and bacterial adhesion to host cells in some human pathogenic bacteria, including several Bacillus spp. strains. Interestingly, some bacterial CLP-encoding genes (clps) have also been found in non-human pathogenic strains such as B. cereus and B. amyloliquefaciens, which are types of plant-growth promoting rhizobacteria (PGPR). In this study, we investigated a putative cluster of clps in B. amyloliquefaciens strain FZB42 and a collagen-related structural motif containing glycine-X-threonine repeats was found in the genes RBAM_007740, RBAM_007750, RBAM_007760, and RBAM_007770. Interestingly, biofilm formation was disrupted when these genes were inactivated separately. Scanning electron microscopy and hydrophobicity value detection were used to assess the bacterial cell shape morphology and cell surface architecture of clps mutant cells. The results showed that the CLPs appeared to have roles in bacterial autoaggregation, as well as adherence to the surface of abiotic materials and the roots of Arabidopsis thaliana. Thus, we suggest that the CLPs located in the outer layer of the bacterial cell (including the cell wall, outer membrane, flagella, or other associated structures) play important roles in biofilm formation and bacteria-plant interactions. This is the first study to analyze the function of a collagen-like motif-containing protein in a PGPR bacterium. Knocking out each clp gene produced distinctive morphological phenotypes, which demonstrated that each product may play specific roles in biofilm formation. Our in silico analysis suggested that these four tandemly ranked genes might not belong to an operon, but further studies are required at the molecular level to test this hypothesis. These results provide insights into the functions of clps during interactions between bacteria and plants. [ABSTRACT FROM AUTHOR]

Published

2015