Novel genetic variants of banana streak MY virus and banana streak IM virus naturally infecting banana in Northeast India.

IF 2.6 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
3 Biotech Pub Date : 2024-11-01 Epub Date: 2024-10-23 DOI:10.1007/s13205-024-04113-4
Richa Rai, Yumlembam Rupert Anand, Sapam Monteshori, Damini Diksha, Saurabh Kumar Dubey, Virendra Kumar Baranwal, Susheel Kumar Sharma
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引用次数: 0

Abstract

Divergent banana streak viruses (BSV) were characterized from banana plants exhibiting diverse symptoms in the Northeast region (NER) of India. Using rolling circle amplification (RCA), the complete genome sequences of seven episomal banana streak MY virus (BSMYV) isolates, including two novel variants, and two new banana streak IM virus (BSIMV) isolates were characterized. The novel BSMYV genetic variants were associated with conspicuous necrosis on newly emerged leaves, peduncle distortion, pseudostem internal necrosis, in addition to common streak symptoms. For complete genome nucleotide sequences, BSMYV-IN4 and IN5 shared 77-79% identity with other BSMYVs, while BSMYV-IN7 and IN8 exhibited identities of 77-97%. This study reports for the first time, the complete genomes of two banana streak IM virus (BSIMV-IN1 and -IN2) infecting triploid banana hybrids exhibiting leaf distortion, stunted rosette-like growth, and necrosis, sharing 87% sequence identity with reference BSIMV genome (GenBank accession no. HQ593112). Phylogenetic inference based on complete genomes revealed the distinct and congruent placement of BSMYV-IN4 and IN5 within the BSMYV cluster. Pairwise sequence comparisons of the conserved RT/RNase H nucleotide (nt) sequences revealed that the BSMYV-IN7 and IN4 isolates showed 85% and 97% identity to BSMYV (AY805074), respectively, which shared highest nt identity with BSMYV-IN6, IN9, and IN10, at 100%. The RT/RNase H nt sequences of BSIMV-IN1 and IN2 had 98% identity with the BSIMV (HQ593112), but were characterized as novel variants of BSIMV based on complete genomes. An analysis of relative synonymous codon usage (RSCU) pattern in the ORFIII polyprotein of BSMYV and BSIMV isolates revealed AGA and AGG (arginine) as the most frequently overrepresented codons (>1.5), evolutionary conserved in the genome of both species. A total of 14 recombination events were detected among the 36 BSV genomes, with recombination breakpoints mainly located in the ORFI, III, and IGR genomic regions. A novel phylogenetic cluster, comprised of BSMYV-IN4 and IN5 within the clade I was probably derived from heterologous recombination between parents resembling banana streak VN virus (BSVNV; AY750155) and banana streak GF virus (BSGFV; KJ013507) isolates. The present study conclusively reports the infection of genetically and symptomatically distinct variants of BSMYV and BSIMV infecting banana hybrids in NER India.

印度东北部香蕉自然感染的香蕉条纹 MY 病毒和香蕉条纹 IM 病毒的新基因变种。
从印度东北部地区(NER)表现出不同症状的香蕉植株中发现了不同的香蕉条纹病毒(BSV)。利用滚动圈扩增(RCA)技术,鉴定了 7 个外显香蕉条纹 MY 病毒(BSMYV)分离株(包括 2 个新型变体)和 2 个新型香蕉条纹 IM 病毒(BSIMV)分离株的完整基因组序列。新型 BSMYV 基因变体除了常见的条斑病症状外,还与新萌发叶片上的明显坏死、花序梗扭曲、假茎内部坏死有关。在完整的基因组核苷酸序列中,BSMYV-IN4 和 IN5 与其他 BSMYV 的同一性为 77-79%,而 BSMYV-IN7 和 IN8 的同一性为 77-97%。本研究首次报道了感染三倍体香蕉杂交种的两种香蕉条纹IM病毒(BSIMV-IN1和-IN2)的完整基因组,这两种病毒表现出叶片扭曲、莲座状生长迟缓和坏死,与参考BSIMV基因组(GenBank登录号:HQ593112)有87%的序列相同性。基于完整基因组的系统发育推断表明,BSMYV-IN4 和 IN5 在 BSMYV 群体中的位置是不同的,而且是一致的。对保守的 RT/RNase H 核苷酸(nt)序列进行配对比较发现,BSMYV-IN7 和 IN4 分离物与 BSMYV (AY805074) 的同一性分别为 85% 和 97%,与 BSMYV-IN6、IN9 和 IN10 的 nt 同一性最高,为 100%。BSIMV-IN1和IN2的RT/RNase H nt序列与BSIMV(HQ593112)的同一性为98%,但基于完整基因组被鉴定为BSIMV的新变种。对 BSMYV 和 BSIMV 分离物 ORFIII 多聚蛋白中相对同义密码子使用(RSCU)模式的分析表明,AGA 和 AGG(精氨酸)是最常出现的高比例密码子(>1.5),在这两个物种的基因组中进化保守。36 个 BSV 基因组中共检测到 14 个重组事件,重组断点主要位于 ORFI、III 和 IGR 基因组区域。一个新的系统发生群由支系 I 中的 BSMYV-IN4 和 IN5 组成,该系统发生群可能来自于类似于香蕉条纹 VN 病毒(BSVNV;AY750155)和香蕉条纹 GF 病毒(BSGFV;KJ013507)分离株的亲本之间的异源重组。本研究最终报告了印度东北部香蕉杂交种感染 BSMYV 和 BSIMV 的不同基因和症状变种的情况。
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来源期刊
3 Biotech
3 Biotech Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
6.00
自引率
0.00%
发文量
314
期刊介绍: 3 Biotech publishes the results of the latest research related to the study and application of biotechnology to: - Medicine and Biomedical Sciences - Agriculture - The Environment The focus on these three technology sectors recognizes that complete Biotechnology applications often require a combination of techniques. 3 Biotech not only presents the latest developments in biotechnology but also addresses the problems and benefits of integrating a variety of techniques for a particular application. 3 Biotech will appeal to scientists and engineers in both academia and industry focused on the safe and efficient application of Biotechnology to Medicine, Agriculture and the Environment.
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