The coat protein genes of squash mosaic virus: cloning, sequence analysis, and expression in tobacco protoplasts

Bachmair A, Finley D, Varshavsky A (1986) In vitro half-life of a protein in function of its amino-terminal residue. Science 234: 179?286

Beachy RN, Loesch-Fries S, Tumer NE (1990) Coat protein-mediated resistance against virus infection. Annu Rev Phytopathol 28: 451?474

Bergman T, Jornvall H (1987) Electroblotting of individual polypeptides from SDS/polyacrylamide gels for direct sequence analysis. Eur J Biochem 169: 9?12

Bruening G (1978) Comovirus group. CMI/AAB Descriptions of Plant Viruses no 199

Campbell RN (1971) Squash mosaic virus. CMI/AAB Descriptions of Plant Viruses no 43

Chee PP (1991) Somatic embryogenesis and plant regeneration of squashCucurbito pepo L. cv. YC 60. Plant Cell Rep 9: 620?622

Chee PP (1992) Initiation and maturation of somatic embryos of squash (Cucurbito pepo). HortScience 27: 59?60

Chen Z, Stauffacher C, Li Y, Schmidt T, Wu B, Kamer G, Shanks M, Lomonossoff G, Johnson JE (1989) Protein-RNA interactions in an icosahedral virus at 3.0 � resolution. Science 245: 154?159

Cleveland DW, Fischer SG, Krischner MW, Laemmli UK (1977) Peptide mapping by limited proteolysis in sodium dodecyl sulfate and analysis by gel electrophoresis. J Biol Chem 252: 1102?1106

Dayhof MO, Schwarz RM, Orcutt BC (1979) A model of evolutionary change in proteins. In: Dayhoff MO (ed) Atlas of protein sequence and structure, vol 5, suppl 3. National Biomedical Research Foundation, Washington, DC, pp 345?352

Devereux J, Haeberli P, Smithies O (1984) A comprehensive set of sequence analysis programs for the VAX. Nucleic Acids Res 12: 387?395

Fang G, Grumet R (1990)Agrobacterium tumefaciens mediated transformation and regeneration of muskmelon plants. Plant Cell Rep 9: 160?164

Garcia JA, Schrijvers L, Tan A, Vos P, Wellink J, Goldbach R (1987) Proteolytic activity of cowpea mosaic virus encoded 24 K protein synthesized inEscherichia coli. Virology 159: 67?75

Goldbach R, Krijt J (1982) Cowpea mosaic virus-encoded protease does not recognise primary translation products of M RNAs of other comoviruses. J Virol 43: 1151?1154

Goldbach R, van Kammen A (1985) Structure, replication and expression of the bipartite genome of cowpea mosaic virus. In: Davies JW (ed) Molecular plant virology, vol 2. CRC Press, Boca Raton, pp 83?120

Gubler U, Hoffman BJ (1983) A simple and very efficient method for getting cDNA libraries. Gene 25: 263?269

Hanahan D (1986) Studies of transformation ofE. coli with plasmids. J Mol Biol 166: 557?562

Hiebert E, Purcifull DE (1981) Mapping of the two coat protein genes on the middle RNA component of squash mosaic virus (comovirus group). Virology 113: 630?636

Maniatis T, Fritsch E, Sambrook J (1982) Molecular cloning. Cold Spring Harbor Laboratory, Cold Spring Harbor

Matsudaira P (1987) Sequence from picomole quantities of proteins electroblotted onto polyvinyllidene difluoride membranes. J Biol Chem 262: 10035?10038

Moghal SM, Francki RIB (1976) Towards a system for the identification and classification of potyviruses I. Serology and amino acid composition of six distinct viruses. Virology 73: 350?362

Moore DD (1987) Construction of recombinant DNA libraries. In: Ausubel FM et al (ed) Current protocols in molecular biology. Wiley, New York, pp 501?563

Negrutiu I, Shillito R, Potrykus I, Biasini G, Sala F (1987) Hybrid genes in the analysis of transformation conditions. Plant Mol Biol 8: 363?373

Negy JI, Maliga P (1976) Callus induction and plant regeneration from mesophyll protoplasts ofNicotiana sylvestris. Z Pflanzenphysiol 78: 453?455

Nelson MR, Kunhtsen HK (1973) Squash mosaic virus variability: review and serological comparisons of six biotypes. Phytopathology 63: 920?926

Nida DL, Anjos JR, Lomonossoff GP, Ghabrial SA (1992) Expression of cowpea mosaic virus coat protein precursor in transgenic tobacco plants. J Gen Virol 73: 157?163

Sanger F (1981) Determination of nucleotide sequences in DNA. Science 214: 1205?1210

Shanks S, Stanley J, Lomonossoff GP (1987) The primary structure of red clover mottle virus middle component RNA. Virology 155: 697?706

Slightom JL, Theisen TW, Koop BF, Goodman M (1987) Orangutan fetal globin genes: nucleotide sequences reveal multiple gene conversions during hominid phylogeny. J Biol Chem 262: 7472?7483

Slightom JL (1991) Custom polymerase-chain-reaction engineering of a plant expression vector. Gene 100: 251?255

Slightom JL, Drong RF, Sieu LC, Chee PP (1991) Custom polymerase chain reaction engineering plant expression vectors and genes for plant expression. Plant Mol Biol Manual B16: 1?55

van Wezenbeek P, Verver J, Harmsen J, Vos P, van Kammen A (1983) Primary structure and gene organization of the middle-component RNA of cowpea mosaic virus. EMBO J 2: 941?946

Vos P, Verver J, Jaegle M, Wellink J, van Kammen A, Goldbach R (1988) Two viral proteins involved in the proteolytic processing of cowpea mosaic virus polyproteins. Nucleic Acids Res 16: 1967?1985

Wang M, Gonsalves D (1990) ELISA detection of various tomato spotted wilt virus isolates using specific antisera to structural proteins of the virus. Plant Dis 74: 154?158

Weickert MJ, Chambliss GH (1989) Acid-phenol minipreps make excellent sequencing templates. USB Editorial Comments 16(2): 5?6

Yanisch-Perron C, Vieira J, Messing J (1985) Improved M13 phage cloning vectors and host strains: nucleotide sequences of the M 13 mp 18 and pUC 19 vectors. Gene 33: 103?119