Complete Genome Sequence of a New Chickpea Chlorotic Dwarf Virus Strain Isolated from Tomato in Kenya, Obtained from Illumina Sequencing.

High-throughput sequence analysis revealed the complete genome sequence of a novel, hitherto uncharacterized strain of Chickpea chlorotic dwarf virus (CpCDV) from tomato plants in Kenya. The sequence shared its highest nucleotide similarity (88.7%) with two CpCDV isolates from Burkina Faso.

Cassava brown streak disease in Rwanda, the associated viruses and disease phenotypes.

Cassava brown streak disease (CBSD) was first observed on cassava (Manihot esculenta) in Rwanda in 2009. In 2014 eight major cassava-growing districts in the country were surveyed to determine the distribution and variability of symptom phenotypes associated with CBSD, and the genetic diversity of cassava brown streak viruses. Distribution of the CBSD symptom phenotypes and their combinations varied greatly between districts, cultivars and their associated viruses. The symptoms on leaf alone recorded the highest (32.2%) incidence, followed by roots (25.7%), leaf + stem (20.3%), leaf + root (10.4%), leaf + stem + root (5.2%), stem + root (3.7%), and stem (2.5%) symptoms. Analysis by RT-PCR showed that single infections of Ugandan cassava brown streak virus (UCBSV) were most common (74.2% of total infections) and associated with all the seven phenotypes studied. Single infections of Cassava brown streak virus (CBSV) were predominant (15.3% of total infections) in CBSD-affected plants showing symptoms on stems alone. Mixed infections (CBSV + UCBSV) comprised 10.5% of total infections and predominated in the combinations of leaf + stem + root phenotypes. Phylogenetic analysis and the estimates of evolutionary divergence, using partial sequences (210 nt) of the coat protein gene, revealed that in Rwanda there is one type of CBSV and an indication of diverse UCBSV. This study is the first to report the occurrence and distribution of both CBSV and UCBSV based on molecular techniques in Rwanda.

Lanai: A small, fast growing tomato variety is an excellent model system for studying geminiviruses.

Geminiviruses are devastating single-stranded DNA viruses that infect a wide variety of crops in tropical and subtropical areas of the world. Tomato, which is a host for more than 100 geminiviruses, is one of the most affected crops. Developing plant models to study geminivirus-host interaction is important for the design of virus management strategies. In this study, "Florida Lanai" tomato was broadly characterized using three begomoviruses (Tomato yellow leaf curl virus, TYLCV; Tomato mottle virus, ToMoV; Tomato golden mosaic virus, TGMV) and a curtovirus (Beet curly top virus, BCTV). Infection rates of 100% were achieved by agroinoculation of TYLCV, ToMoV or BCTV. Mechanical inoculation of ToMoV or TGMV using a microsprayer as well as whitefly transmission of TYLCV or ToMoV also resulted in 100% infection frequencies. Symptoms appeared as early as four days post inoculation when agroinoculation or bombardment was used. Symptoms were distinct for each virus and a range of features, including plant height, flower number, fruit number, fruit weight and ploidy, was characterized. Due to its small size, rapid growth, ease of characterization and maintenance, and distinct responses to different geminiviruses, "Florida Lanai" is an excellent choice for comparing geminivirus infection in a common host.

Biological and molecular variability among geographically diverse isolates of sweet potato virus 2.

Sweet potato virus 2 (SPV2) is a tentative member of the genus Potyvirus, family Potyviridae. In addition to the type isolate of SPV2 recently characterised in greater detail, twelve additional isolates of this virus were obtained from sweet potato clones originating from China, Portugal, South Africa and Zambia. Sequences of the coat protein (CP) gene and 3' non-translated region (NTR) were determined. Comparisons of the CP gene sequences of these isolates revealed nucleotide and amino acid sequence identities ranging from 81 to 99% and from 86 to 99%, respectively. Phylogenetic analysis of sequences distinguished several groups, which partially correlated with the geographic origin of the isolates, and indicated that some isolates from South Africa and a Zambian isolate are most distinct both in CP and 3'NTR sequences. Host range studies of a selected number of isolates revealed some differences in test plant reactions, which appeared to correlate to some extent with the geographic origin and molecular distinctness of the SPV2 isolates. The results strongly suggest the occurrence of biologically and genetically diverse strains of SPV2.

Further characterization of 'sweet potato virus 2': a distinct species of the genus Potyvirus.

An incompletely described potyvirus isolate from sweet potato in Taiwan, referred to as 'sweet potato virus 2' (SPV2), was further characterised. Electron microscopy revealed that SPV2 has filamentous particles of 850 nm in length and induces cytoplasmic cylindrical inclusions consisting of pinwheels and scrolls. The virus was mechanically transmitted to several species of the genera Chenopodium, Datura, Nicotiana, and Ipomoea. Two biotypes of Myzus persicae transmitted SPV2 in a non-persistent manner. Decoration titer experiments revealed a distant serological relationship between SPV2 and other potyviruses infecting sweet potato. The 3'-terminal 2006 nucleotides of the viral RNA were determined and shown to be a potyviral genome fragment comprising the coding region for the C-terminal half of the NIb protein, the entire coat protein cistron, and the 3' untranslated region (UTR). Comparison of the capsid protein and 3' UTR sequences of SPV2 with those of other potyviruses demonstrated that it is a distinct member of the genus Potyvirus (family Potyviridae). We propose that SPV2 is named Sweet potato virus Y.