Common bean as perspective source of proteinase inhibitors on the way to transgenic plants resistant to pests and diseases

被引:0
|
作者
Zhumabayeva, Beibutgul Akimalieva [1 ]
Djangalina, Erika Dimashevna [1 ]
Aytasheva, Zaure Gaynetdinovna [1 ]
机构
[1] Al Farabi Kazakh Natl Univ, Alma Ata, Kazakhstan
来源
JOURNAL OF BIOTECHNOLOGY | 2014年 / 185卷
关键词
D O I
10.1016/j.jbiotec.2014.07.397
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
引用
收藏
页码:S116 / S116
页数:1
相关论文
共 40 条
  • [31] Double-Stranded RNA High-Throughput Sequencing Reveals a New Cytorhabdovirus in a Bean Golden Mosaic Virus-Resistant Common Bean Transgenic Line
    Alves-Freitas, Dione M. T.
    Pinheiro-Lima, Bruna
    Faria, Josias C.
    Lacorte, Cristiano
    Ribeiro, Simone G.
    Melo, Fernando L.
    VIRUSES-BASEL, 2019, 11 (01):
  • [32] PHOSPHITE AS PHOSPHORUS SOURCE TO GRAIN YIELD OF COMMON BEAN PLANTS GROWN IN SOILS UNDER LOW OR ADEQUATE PHOSPHATE AVAILABILITY
    Avila, Fabricio William
    Faquin, Valdemar
    Guelfi Silva, Douglas Ramos
    Alves Bastos, Carla Elisa
    Oliveira, Nilma Portela
    Soares, Danilo Araujo
    CIENCIA E AGROTECNOLOGIA, 2012, 36 (06): : 639 - 648
  • [33] Chilean medicinal plants as a source of norA efflux pump inhibitors against resistant Staphylococcus aureus strains
    Holler, J. G.
    Slotved, H. C.
    Christensen, S. B.
    Molgaard, P.
    PLANTA MEDICA, 2011, 77 (12) : 1421 - 1421
  • [34] EFFECT OF HOST GENOTYPE UNIT AREA ON DEVELOPMENT OF FOCAL EPIDEMICS OF BEAN RUST AND COMMON MAIZE RUST IN MIXTURES OF RESISTANT AND SUSCEPTIBLE PLANTS
    MUNDT, CC
    LEONARD, KJ
    PHYTOPATHOLOGY, 1986, 76 (09) : 895 - 900
  • [35] Transgenic Tobacco and Apple Plants Expressing Biotin-binding Proteins are Resistant to two Cosmopolitan Insect Pests, Potato Tuber Moth and Lightbrown Apple Moth, Respectively
    Ngaire P. Markwick
    Lisa C. Docherty
    Margaret M. Phung
    Melissa T. Lester
    Colleen Murray
    Jia-Long Yao
    Deepali S. Mitra
    Daniel Cohen
    Lesley L. Beuning
    Sumathi Kutty-Amma
    John T. Christeller
    Transgenic Research, 2003, 12 : 671 - 681
  • [36] Transgenic tobacco and apple plants expressing biotin-binding proteins are resistant to two cosmopolitan insect pests, potato tuber moth and lightbrown apple moth, respectively
    Markwick, NP
    Docherty, LC
    Phung, MM
    Lester, MT
    Murray, C
    Yao, JL
    Mitra, DS
    Cohen, D
    Beuning, LL
    Kutty-Amma, S
    Christeller, JT
    TRANSGENIC RESEARCH, 2003, 12 (06) : 671 - 681
  • [37] A Review of Antidiabetic Medicinal Plants as a Novel Source of Phosphodiesterase Inhibitors: Future Perspective of New Challenges Against Diabetes Mellitus
    Ouassou, Hayat
    Daoudi, Nour Elhouda
    Bouknana, Saliha
    Abdnim, Rhizlan
    Bnouham, Mohamed
    MEDICINAL CHEMISTRY, 2024, 20 (05) : 467 - 486
  • [38] Cry Toxins and Proteinase Inhibitors in Transgenic Plants Do Have Non-Zero Effects on Natural Enemies in the Laboratory: Rebuttal to Shelton et al. 2009
    Andow, David A.
    Lovei, Gabor L.
    Arpaia, Salvatore
    ENVIRONMENTAL ENTOMOLOGY, 2009, 38 (06) : 1528 - 1532
  • [39] Transgenic chickpea expressing a recombinant human α1-proteinase inhibitor (α1-PI) driven by a seed-specific promoters from the common bean Phaseolus vulgaris (L.)
    Smrati Mishra
    Shweta Jha
    Rani Singh
    Sonam Chaudhary
    Indraneel Sanyal
    Devindra Vijay Amla
    Plant Cell, Tissue and Organ Culture (PCTOC), 2013, 115 : 23 - 33
  • [40] Transgenic chickpea expressing a recombinant human α1-proteinase inhibitor (α1-PI) driven by a seed-specific promoters from the common bean Phaseolus vulgaris (L.)
    Mishra, Smrati
    Jha, Shweta
    Singh, Rani
    Chaudhary, Sonam
    Sanyal, Indraneel
    Amla, Devindra Vijay
    PLANT CELL TISSUE AND ORGAN CULTURE, 2013, 115 (01) : 23 - 33
1234