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2013 | 35 | 11 |

Tytuł artykułu

Integrated criteria to identify the best treatment in plant biotechnology experiments

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Plant scientists usually record many indicators in their experiments. The common statistical management involves univariate analyses. Such analyses generally create a split picture of the effects of experimental treatments since each indicator is addressed independently. The Euclidean distance combined with the expert’s criteria seems to show potential as an integrating indicator. The Euclidean distance has been widely used in many scientific fields nevertheless, as far as we know, it has not been frequently employed in plant science experiments. To exemplify the use of the Euclidean distance in this field, we performed an experiment focused on the effects of gibberellic acid on protease excretion during pineapple micropropagation in temporary immersion bioreactors. Five gibberellic acid concentrations were compared: 0.0, 1.4, 2.8, 4.2 and 5.6 μM. Four dependent variables were recorded: increase in fresh shoot mass, protein concentration, proteolytic activity and specific activity in the culture media. The statistical protocol carried out integrated these four dependent variables to easily identify the best gibberellic acid treatment. Based on expert’s criteria the integral analysis provided by the Euclidean distance indicated that 4.2 μM gibberellic acid is the best treatment to produce proteases in the experimental conditions described here. This treatment showed the shortest (statistically significant) Euclidean distance to expert’s criteria (0.61).

Słowa kluczowe

Wydawca

-

Rocznik

Tom

35

Numer

11

Opis fizyczny

p.3261-3264,fig.,ref.

Twórcy

autor
  • Bioplant Centre, University of Ciego de Avila, 69450 Ciego de A ´ vila, Cuba
autor
  • National Institute for Agricultural Sciences (INCA), Carretera Tapasta, Km 3 , 32700 San Jose´ de las Lajas, La Habana, Cuba
autor
  • Bioplant Centre, University of Ciego de Avila, 69450 Ciego de A ´ vila, Cuba
autor
  • Bioplant Centre, University of Ciego de Avila, 69450 Ciego de A ´ vila, Cuba
autor
  • Bioplant Centre, University of Ciego de Avila, 69450 Ciego de A ´ vila, Cuba
  • Bioplant Centre, University of Ciego de Avila, 69450 Ciego de A ´ vila, Cuba

Bibliografia

  • Anson ML (1938) The estimation of pepsin, trypsin, papain and cathepsin with hemoglobin. J Gen Physiol 22:79
  • Apte P, Kaklij G, Heble M (1979) Proteolytic enzymes bromelains in tissue cultures of Ananas sativus pineapple. Plant Sci Lett 14:52–62
  • Barth A, Peter S, Sedlárová E, Valent A, Tokhtaeva E (2005) Study of immobilized and extracellular aminopeptidases of watermelon. Acta Histochem 107:253–259
  • Companioni B, Arzola M, Rodriguez Y, Mosqueda M, Pérez MC, Borrás O, Lorenzo JC, Santos R (2003) Use of culture-derived Fusarium oxysporum f. sp. cubense, race 1 filtrates for rapid and non-destructive in vitro differentiation between resistant and susceptible clones of field-grown banana. Euphytica 130: 341–347
  • Companioni B, Mora N, Diaz L, Pérez A, Arzola M, Espinosa P, Hernández M, Ventura J, Pérez MC, Santos R, Lorenzo JC (2005) Identification of discriminant factors after treatment of resistant and susceptible banana leaves with Fusarium oxysporum f. sp. cubense-culture filtrates. Plant Breed 124:79–85
  • Daquinta M, Benega R (1997) Brief review of tissue culture of pineapple. Pineap News 3:7–9
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  • Escalona M, Lorenzo JC, González BL, Daquinta M, Borroto CG, González JL, Desjardines Y (1999) Pineapple micropropagation in temporary immersion systems. Plant Cell Rep 18:743–748
  • Fernández G, Pomilio AB (2003) Optimized growth conditions and determination of catalytic type of the peptidase complex from a novel callus culture of pineapple (Ananas comosus). Mol Med Chem 1:39–49
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  • Lorenzo JC, Ojeda E, Espinosa A, Borroto CG (2001) Field performance of temporary immersion bioreactor-derived sugarcane plants. In Vitro Cell Dev Biol Plant 37:803–806
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  • Martinez ME, Mora N, Quiñones J, González-Arnao MT, Engelmann F, Lorenzo JC (2002a) Effect of cryopreservation on the structural and functional integrity of cell membranes of sugarcane embryogenic calluses. Cryoletters 23:237–244
  • Martinez ME, Ojeda E, Espinosa A, Sánchez M, Castillo R, González-Arnao MT, Engelmann F, Lorenzo JC (2002b) Field performance of sugarcane plants derived from cryopreserved calluses. Cryoletters 23:21–26
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  • Rodriguez Y, Mosqueda M, Companioni B, Arzola M, Borrás O, Pérez MC, Lorenzo JC, Santos R (2002) Bioassay for in vitro differentiation of pineapple cultivar resistance levels to heart rot disease. In Vitro Cell Dev Biol Plant 38:613–616
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  • Yabor L, Arzola M, Aragón CE, Hernández M, Arencibia A, Lorenzo JC (2006) Biochemical side effects of genetic transformation of pineapple. Plant Cell Tiss Org Cult 86:63–67
  • Yabor L, Aragón C, Hernández M, Arencibia A, Lorenzo JC (2008) Biochemical side effects of the herbicide FINALE on bar genecontaining transgenic pineapple plantlets. Euphytica. doi:101007/s10681-008-9743-0

Uwagi

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Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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