Peanut stripe virus

Experimental Agriculture, 8 4 Peanut mottle virus causing mosaic disease in peanuts in Thailand and its possible relationship with Rhizobium sp. Thai Journal of Agricultural Science, Survey for peanut stripe virus in India. Indian Journal of Plant Protection, Peanut stripe virus research in India.

Immunodiffusion tests with sodium dodecyl sulfate SDS -treated plant viruses and plant viral inclusions. Identification of peanut stripe virus resistance in wild arachis germplasm. Peanut Science, 18 1 Peanut mottle and peanut stripe virus diseases in Thailand and the Philippines. Plant Disease, Virus diseases of legume plants in Indonesia. Peanut mottle virus. The effect of peanut stripe virus infection on peanut composition.

Peanut Science, 16 1 Aphid vectors of potyvirus isolates infecting groundnuts around Tirupati. Current Science, India, 55 4 Research on peanut stripe virus in Indonesia.

Senboku T, Research on peanut stripe virus in Japan. Differentiation of potyviruses and their strains by high performance liquid chromatographic peptide profiling of coat proteins.

Journal of General Virology, 69 3 Sreenivasulu P; Demski JW, Transmission of peanut mottle and peanut stripe viruses by Aphis craccivora and Myzus persicae. Development of novel genes and a groundnut transformation system for peanut stripe virus resistance.

Studies on groundnut mosaic virus of Arachis hypogaea in West Malaysia. Experimental Agriculture, Virus diseases of groundnut in India with particular reference to peanut stripe virus. Characterization of peanut stripe virus isolates from soybean in Taiwan. Journal of Phytopathology, 2 Yield loss of groundnut due to peanut stripe virus. Taxonomy of potyviruses: current problems and some solutions.

Intervirology, 32 5 Warwick D; Demski JW, Susceptibility and resistance of soybeans to peanut stripe virus. Plant Disease, 72 1 Factors influencing peanut stripe virus PStV transmission in peanut seeds. Fitopatologia Brasileira, 17 4 ; 10 ref.

Wongkaew S, Studies on virus diseases of groundnut. Peanut stripe and other viruses in Thailand. Microscopic differentiation between plant tissue affected with different viruses or some other causes. In: Jogloy S, Wongkaew S, eds. Groundnut virus research in Thailand. Wongkaew S; Dollet M, Comparison of peanut stripe virus isolates using symptomatology on particular hosts and serology. Oleagineux Paris , 45 6 Wongkaew S; Kantrong S, Groundnut research at Khon Kaen University. In: Patanothai A, ed.

Purification and serology of peanut stripe virus. Symptom variants of peanut stripe virus. Yield loss assessment for peanut stripe virus in groundnut. Peanut stripe virus disease in Thailand. Wongkaew S; Srichumpa P, Seed transmission of peanut stripe virus in groundnut.

Wynne JC, Effect of peanut stripe virus on peanut breeding. Complete genome sequence of Peanut stripe virus isolated in China. Xu Z, Research on peanut stripe virus disease in the People's Republic of China. The type of peanut virus diseases and serological diagnosis of the viruses in northern China.

Oil Crops of China, Seed transmission of peanut stripe virus in peanut. A virus causing peanut mild mottle in Hubei Province, China.

Plant Disease, 67 9 Xu Z; Zhang Z, Sesame yellow mosaic virus disease caused by a potyvirus. Studies on the control of peanut mild mottle virus diseases. Distribution of peanut virus diseases and detection of viruses by serology in China. Groundnut virus research in China. Current research on groundnut virus diseases in China. Yang S, Studies on the pathogen and occurrence of sesame yellow mosaic virus disease.

A new high-yielding low oil content groundnut variety. Production of peanut seed free of peanut stripe and peanut mottle viruses in Florida.

Plant Disease, 77 7 Anon, Viruses of plants. Descriptions and lists from the VIDE database. CABI, Undated a. CABI, Undated b. Plant Disease. In: Plant Protection Bulletin Taipei , 22 Australasian Plant Pathology. Peanut stripe virus - a new seed-borne potyvirus from China infecting groundnut Arachis hypogaea. Annals of Applied Biology. African Plant Protection. Indian Phytopathology.

Huayu a new high-yielding, improved quality groundnut cultivar with wide adaptability for northern China. International Arachis Newsletter. Annals of the Phytopathological Society of Japan. In: International Arachis Newsletter, 14 Middleton KJ, Saleh N, In: Thai Journal of Agricultural Science, 15 In: Plant Disease, 69 In: Experimental Agriculture, 8 In: Oil Crops of China, 3 A virus causing peanut mild mottle in Hubei province, China.

Xu Z, Zhang Z, In: Oil Crops of China, 2 One or more of the features that are needed to show you the maps functionality are not available in the web browser that you are using. Toggle navigation. Datasheet Peanut stripe virus groundnut stripe disease. Don't need the entire report? Generate a print friendly version containing only the sections you need.

Generate report. Expand all sections Collapse all sections. Pictures Top of page Picture Title Caption Copyright Title Symptoms on leaflets Caption Initial symptoms of PStV on young groundnut leaflets; initial symptoms appear as chlorotic flecks or rings on young quadrifoliates.

Copyright Sapone Wongkaew. Title Symptoms on leaflet Caption Older leaflet of groundnut showing mild mottle symptom. Green blotches are present in chlorotic areas. Copyright N. Green blotches are observed in chlorotic areas. Note depressions on leaves; these are less clear but are often present. Distribution Table Top of page The distribution in this summary table is based on all the information available.

Growth Stages Top of page Vegetative growing stage. Plant Disease, 72 11 Camat M, Plant Disease, 77 7 Distribution References Anon, CABI, Undated. Compendium record. Distribution Maps Top of page You can pan and zoom the map. Select a dataset I want to see the distribution of this species based on the records CABI believe are most reliable. I want to see other datasets from third-party sources. Two potential AUG start codons were identified in the 5' non-translated region.

Analysis of in vitro translation products from transcripts containing the first nt of the PStV genome indicated that the first AUG nt to was preferred over the second AUG nt to for initiation of translation. Within the single large open reading frame, eight processed proteins were predicted. In general, motifs conserved in other potyviral sequences were also found in the PStV genome.

The presence of a 6K protein between the P3 and CI proteins was predicted.