Search

Your search keyword '"Yan Song Xiao"' showing total 6 results
Start Over Author "Yan Song Xiao"
6 results on '"Yan Song Xiao"'

2. Characterization of a novel victorivirus from Nigrospora chinensis, a fungus isolated from tobacco

Author

Jie Zhong, Wen Wen Sui, Ping Li, Qian Jun Tang, Tian Bo Liu, and Yan Song Xiao

Subjects
Viral Proteins, Open Reading Frames, Virology, Tobacco, RNA, Viral, RNA Viruses, Genome, Viral, General Medicine, Fungal Viruses, Phylogeny, Totiviridae, RNA, Double-Stranded
Abstract

Here, we characterized a new mycovirus from the fungus Nigrospora chinensis, which was named "Nigrospora chinensis victorivirus 1" (NcVV1). The NcVV1 genome is 5283 bp in length, containing two continuous open reading frames (ORFs), ORF1 and ORF2. ORF1 and ORF2 were predicted to encode a putative coat protein (CP) and an RNA-dependent RNA polymerase (RdRp), respectively. The stop codon of ORF1 overlaps with the start codon of ORF2 by the tetranucleotide sequence AUGA. Phylogenetic analysis based on amino acid sequences of RdRp and CP indicated that NcVV1 clustered with members of the genus Victorivirus in the family Totiviridae. To our knowledge, this was the first report of a mycovirus infecting N. chinensis.

Published
2022
Full Text
View/download PDF

3. Characterization of a novel victorivirus isolated from the plant-pathogenic fungus Nigrospora chinensis

Author

Jie Zhong, Wen Wen Sui, Ping Li, Qian Jun Tang, Tian Bo Liu, and Yan Song Xiao

Abstract

Here, we characterized a new mycovirus from the Nigrospora chinensis fungus, that was named Nigrospora chinensis victorivirus 1 (NcV1). NcV1 genome was 5, 283 bp in length, containing two overlapping open reading frames (ORFs), ORF1 and ORF2. ORF1 and ORF2 were predicted to encode a putative coat protein and an RNA-dependent RNA polymerase, respectively. The stop codon of ORF1 was overlapped with the start codon of ORF2 by tetranucleotide sequence ATGAG. Phylogenetic analysis based on aa sequences of RdRp indicated that NcRV1 was clustered with members of the genus Victorivirus in the family Totiviridae. To our knowledge, this was the first report of mycovirus infecting N. chinensis.

Published
2022
Full Text
View/download PDF

4. <scp>NtMYB12a</scp> acts downstream of sucrose to inhibit fatty acid accumulation by targeting lipoxygenase and <scp>SFAR</scp> genes in tobacco

Author

Yan Song Xiao, Wang Shanshan, Jun Yang, Zhong Wang, Ze Feng Li, Ai Guo Yang, Li Rui Cheng, Jin Long Yu, Xiao Dong Xie, and Ming Zhu Wu

Subjects
0106 biological sciences, 0301 basic medicine, Chromatin Immunoprecipitation, Sucrose, Physiology, Nicotiana tabacum, Lipoxygenase, Plant Science, Genes, Plant, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Biosynthesis, Tobacco, Cloning, Molecular, Plant Proteins, Flavonoids, chemistry.chemical_classification, biology, Reverse Transcriptase Polymerase Chain Reaction, Fatty Acids, food and beverages, Fatty acid, biology.organism_classification, 030104 developmental biology, Enzyme, chemistry, Biochemistry, biology.protein, Chromatin immunoprecipitation, Transcription Factors, 010606 plant biology & botany, Polyunsaturated fatty acid
Abstract

MYB12 promotes flavonol biosynthesis in plants by targeting several early biosynthesis genes (EBGs) of this pathway. The transcriptions of these EBGs are also induced by sucrose signal. However, whether MYB12 is activated by sucrose signal and what the other roles MYB12 has in regulating plant metabolism are poorly understood. In this study, two NtMYB12 genes were cloned from Nicotiana tabacum. Both NtMYB12a and NtMYB12b are involved in regulating flavonoids biosynthesis in tobacco. NtMYB12a is further shown to inhibit the accumulation of fatty acid (FA) in tobacco leaves and seeds. Post-translational activation and chromatin immunoprecipitation assays demonstrate that NtMYB12a directly promotes the transcriptions of NtLOX6, NtLOX5, NtSFAR4 and NtGDSL2, which encode lipoxygenase (LOX) or SFAR enzymes catalyzing the degradation of FA. NtLOX6 and NtLOX5 are shown to prevent the accumulation of FA in the mature seeds and significantly reduced the percentage of polyunsaturated fatty acids (PUFAs) in tobacco. Sucrose stimulates the transcription of NtMYB12a, and loss function of NtMYB12a partially suppresses the decrease of FA content in tobacco seedlings caused by sucrose treatment. The regulation of sucrose on the expression of NtLOX6 and NtGDSL2 genes is mediated by NtMYB12a, whereas those of NtLOX5 and NtSFAR4 genes are independent of sucrose.

Published
2020
Full Text
View/download PDF

5. First Report of Fusarium commune causing Stem Rot of Tobacco (Nicotiana tabacum) in Hunan Province, China

Author

Zhi Hui Cao, Jie Zhong, Jun Zi Zhu, Bin He, Zhi Guo Shou, Yan Song Xiao, and Quan Zhong

Subjects
Fusarium, biology, Nicotiana tabacum, food and beverages, Plant Science, biology.organism_classification, Spore, Conidium, Horticulture, Root rot, Potato dextrose agar, Stem rot, Agronomy and Crop Science, Mycelium
Abstract

Tobacco (Nicotiana tabacum L.) is a leafy, annual, solanaceous plant grown commercially for its leaves. It is one of the most important cash crops in China. In April of 2020, tobacco stems in commercial tobacco fields developed a brown to dark brown rot, in the Hunan Province of China. Almost 20% of the plants were infected. Symptoms appeared as round water-soaked spots, then turned dark black and developed into brown necrotic lesions leading to the stem becoming girdled and rotted. Diseased stem tissue was cut and sterilized with 70% ethanol for 10 s, 0.1% HgCl2 for 2 min, rinsed with sterile distilled water three times, and then plated on potato dextrose agar (PDA) and incubated at 26°C in the dark. Six isolates with similar morphology were obtained. Colonies cultured on PDA have morphological characteristics of Fusarium spp. producing white to orange-white, densely aerial mycelium with magenta to dark violet pigmentation. Macroconidia were produced on carnation leaf agar plates (Xi et al. 2019), which were slightly curved, with apical and basal cells curved, and usually contained three or five septa, 25.50 to 41.50×3.55 to 5.80 μm (n=50). Microconidia were cylindrical, ovate-oblong, straight to slightly curved, aseptate and 5.80 to 13.75 × 3.10 to 4.10 μm (n=50). For molecular identification, the translation elongation factor 1-alpha (EF1-α), the largest subunit of RNA polymerase II gene sequences (RPB2) and the mitochondrial small subunit rDNA (mtSSU) of a representative isolate CZ3-5-6 were amplified using the primer pairs ef1/ef2 (O'Donnell et al. 1998), 5F2/7Cr (O'Donnell et al. 2010) and NMS1/ NMS2 (Li et al. 1994). The obtained EF1-α, RPB2 and mtSSU sequences (GenBank accession nos. MT708482, MT708483 and MW260121, respectively) were 99.70 %, 100% and 100% identical to strains of F. commune (HM057338.1 for EF1-α, KU171700.1 for RPB2 and MG846025 for mtSSU). Moreover, Fusarium-ID database searches revealed that the EF1-α and RPB2 were 100% identical to F. commune strains (FD_01140_EF-1a and FD_02411_RPB2). Based on the morphological and molecular characteristics of the representative isolate, the fungal species was identified as F. commune. Pathogenicity testing of a representative isolate was performed by inoculating tobacco plants, which were grown for 2.5 months in a sterile pot with autoclaved soil. Each tobacco stem was injected with 20 μl of conidial suspension (105 spores/ml). Plants inoculated with sterilized water served as control. The pathogenicity tests were performed twice using three replicate plants, and all plants were kept in humid chambers (80 × 50 × 80 cm) at 26°C with a 12-h photoperiod. After 10 days, dark brown necrotic symptoms around the inoculated site, similar to those observed in natural field, were developed in all inoculated plants, whereas no symptoms were observed on the control plants. The pathogenic fungus was re-isolated from symptomatic tissue and identified as F. commune but was not recovered from the control plants. Fusarium commune has been reported to cause root rot or stalk and stem rot on some plants, such as sugarcane (Wang et al. 2018), Gentiana scabra (Guan et al. 2016) and maize (Xi et al. 2019). However, to our knowledge, this is the first report of F. commune causing stem rot on tobacco in China. Identification of F. commune as a stem rot causing pathogen might provide important insights for disease diagnosis on tobacco caused by different Fusarium species. Overall, this disease might bring a threat to tobacco production, and appropriate control measures should be adopted to reduce losses in tobacco fields.

Published
2020

Catalog

Books, media, physical & digital resources
See catalog results