QUES, a new Phaseolus vulgaris genotype resistant to common bean weevils, contains the Arcelin-8 allele coding for new lectin-related variants

[1]  J. Myers,et al.  Seed storage proteins ARL2 and its variants from the apalocus of wild tepary bean G40199 confers resistance to acanthoscellides obtectus when expressed in common beans , 2011 .

[2]  M. Blair,et al.  Genetic mapping of microsatellite markers around the arcelin bruchid resistance locus in common bean , 2010, Theoretical and Applied Genetics.

[3]  C. Lanave,et al.  Identification and sequencing of a BAC clone belonging to the Phaseolus vulgaris (L.) insecticidial Arc4 lectin locus , 2010 .

[4]  R. Bollini,et al.  Common bean (Phaseolus vulgaris L.) lines devoid of major lectin proteins , 2009 .

[5]  J. Davis,et al.  Transfer of the arcelin-phytohaemagglutinin-α amylase inhibitor seed protein locus from tepary bean (Phaseolus acutifolius A. Gray) to common bean (P. vulgaris L.). , 2009 .

[6]  M. Heller,et al.  Evaluation of reproducibility of protein identification results after multidimensional human serum protein separation , 2008, Proteomics.

[7]  P. Moore,et al.  Genomics of Tropical Crop Plants , 2008 .

[8]  M. Blair,et al.  Genomics of Phaseolus Beans, a Major Source of Dietary Protein and Micronutrients in the Tropics , 2008 .

[9]  C. Cardona Common Beans: Latin America , 2007 .

[10]  C. Lanave,et al.  Evolutionary analysis of the APA genes in the Phaseolus genus: wild and cultivated bean species as sources of lectin-related resistance factors? , 2007, Theoretical and Applied Genetics.

[11]  M. Heller,et al.  Compositional Protein Analysis of High Density Lipoproteins in Hypercholesterolemia by Shotgun LC-MS/MS and Probabilistic Peptide Scoring*S , 2007, Molecular & Cellular Proteomics.

[12]  G. Howe,et al.  Stability of Plant Defense Proteins in the Gut of Insect Herbivores1[C][W][OA] , 2007, Plant Physiology.

[13]  S. Dorn,et al.  The inhibitory effect of the natural seed storage protein arcelin on the development of Acanthoscelides obtectus , 2007 .

[14]  M. Ishimoto,et al.  Assessment of the importance of α-amylase inhibitor-2 in bruchid resistance of wild common bean , 2007, Theoretical and Applied Genetics.

[15]  V. Poncet,et al.  Development of four phylogenetically-arrayed BAC libraries and sequence of the APA locus in Phaseolus vulgaris , 2006, Theoretical and Applied Genetics.

[16]  M. Van Montagu,et al.  A reproducible genetic transformation system for cultivated Phaseolus acutifolius (tepary bean) and its use to assess the role of arcelins in resistance to the Mexican bean weevil , 2005, Theoretical and Applied Genetics.

[17]  C. Lanave,et al.  Lectin and lectin-related proteins in Lima bean (Phaseolus lunatus L.) seeds: biochemical and evolutionary studies , 2001, Plant Molecular Biology.

[18]  R. Bollini,et al.  Arcelin in wild bean (Phaseolus vulgaris L.) seeds: sequence of arcelin 6 shows it is a member of the arcelins 1 and 2 subfamily , 1998, Genetic Resources and Crop Evolution.

[19]  M. Ishimoto,et al.  Variation of seed α-amylase inhibitors in the common bean , 1995, Theoretical and Applied Genetics.

[20]  T. Mirkov,et al.  Evolutionary relationships among proteins in the phytohemagglutinin-arcelin-α-amylase inhibitor family of the common bean and its relatives , 1994, Plant Molecular Biology.

[21]  R. Bollini,et al.  Characterization and subcellular localization of vicilin and phytohemagglutinin, the two major reserve proteins of Phaseolus vulgaris L. , 2004, Planta.

[22]  C. Cardona,et al.  Inheritance of resistance to Acanthoscelides obtectus in a wild common bean accession crossed to commercial bean cultivars , 2004, Euphytica.

[23]  C. Lanave,et al.  Lectin-related resistance factors against bruchids evolved through a number of duplication events , 2003, Theoretical and Applied Genetics.

[24]  M. F. Grossi-de-Sá,et al.  Plant toxic proteins with insecticidal properties. A review on their potentialities as bioinsecticides. , 2002, Toxicon : official journal of the International Society on Toxinology.

[25]  M. Van Montagu,et al.  Analysis of bruchid resistance in the wild common bean accession G02771: no evidence for insecticidal activity of arcelin 5. , 2000, Journal of experimental botany.

[26]  I. Gerhardt,et al.  The effect of arcelin-1 on the structure of the midgut of bruchid larvae and immunolocalization of the arcelin protein. , 2000, Journal of insect physiology.

[27]  P. Thibault,et al.  Post‐translational processing of two α‐amylase inhibitors and an arcelin from the common bean, Phaseolus vulgaris , 1999 .

[28]  S. L. Clement,et al.  Global Plant Genetic Resources for Insect-Resistant Crops , 1998 .

[29]  L. Mourey,et al.  Characterization and sugar-binding properties of arcelin-1, an insecticidal lectin-like protein isolated from kidney bean (Phaseolus vulgaris L. cv. RAZ-2) seeds. , 1998, The Biochemical journal.

[30]  L. Hartweck,et al.  Altering protein composition by genetically removing phaseolin from common bean seeds containing arcelin or phytohemagglutinin , 1997, Theoretical and Applied Genetics.

[31]  P. Graham,et al.  COMMON BEAN (PHASEOLUS VULGARIS L.) , 1997 .

[32]  M. Ishimoto,et al.  Molecular characterization of a bean alpha-amylase inhibitor that inhibits the alpha-amylase of the mexican bean weevil Zabrotes subfasciatus. , 1997, Planta.

[33]  M. Ishimoto,et al.  Molecular characterization of a bean α-amylase inhibitor that inhibits the α-amylase of the Mexican bean weevil Zabrotes subfasciatus , 1997, Planta.

[34]  C. Cardona,et al.  Inheritance of Resistance to Mexican Bean Weevil in Common Bean, Determined by Bioassay and Biochemical Tests , 1993 .

[35]  L. Hartweck,et al.  Characterization and comparison of arcelin seed protein variants from common bean. , 1991, Plant physiology.

[36]  J. Dendy,et al.  Development, fecundity and egg dispersion of Zabrotes subfasciatus , 1991 .

[37]  J. Dendy,et al.  New sources of resistance to Acanthoscelides obtectus (Say) and Zabrotes subfasciatus Boheman (Coleoptera: Bruchidae) in mature seeds of five species of Phaseolus , 1990 .

[38]  C. Cardona,et al.  Comparative value of four arcelin variants in the development of dry bean lines resistant to the Mexican bean weevil , 1990 .

[39]  J. Gatehouse,et al.  Biochemical bases of seed resistance to Zabrotes subfasciatus (bean weevil) in Phaseolus vulgaris (common bean); A mechanism for arcelin toxicity , 1990 .

[40]  R. Bollini,et al.  Lectin‐like proteins accumulate as fragmentation products in bean seed protein bodies , 1989 .

[41]  J. Valor,et al.  Antibiosis Effects of Wild Dry Bean Accessions on the Mexican Bean Weevil and the Bean Weevil (Coleoptera: Bruchidae) , 1989 .

[42]  J. Mol,et al.  Cloning of the two chalcone flavanone isomerase genes from Petunia hybrida: coordinate, light‐regulated and differential expression of flavonoid genes. , 1988, The EMBO journal.

[43]  F. Bliss,et al.  Insecticidal Activity and Lectin Homology of Arcelin Seed Protein , 1988, Science.

[44]  D. Boulter,et al.  Role of carbohydrates in insect resistance in Phaseolus vulgaris , 1987 .

[45]  C. Cardona,et al.  Resistance to the Bean Weevil and the Mexican Bean Weevil (Coleoptera: Bruchidae) in Noncultivated Common Bean Accessions , 1983 .

[46]  T. Bøg‐Hansen Lectins : biology, biochemistry, clinical biochemistry , 1981 .

[47]  R. Howe,et al.  Some laboratory observations on the rates of development, mortality and oviposition of several species of Bruchidae breeding in stored pulses. , 1964 .