Cicer

Winter, K. (1981). CO2 and water vapour exchange, malate content and values in Cicer arietinum growth under two water regimes. Zeitschrift fur Pflanzenphy-siologie, 101, 421-30. [Pg.69]

Pandey, S. Ganapathy, P.S. (1985). The proline enigma NaCI-tolerant and NaCl-sensitive callus lines of Cicer arietinum L. Plant Science, 40, 13-17. [Pg.195]

Poltronieri, F., Areas, J. A. G., and Colli, C. (2000). Extrusion and iron bioavailabiUty in chickpea (Cicer arietinum L.). Food Chem. 70,175-180. [Pg.199]

B. Dinkelaker, Genotypi.sche Unterschiede in der Phosphateffizienz von Kicher-erbse (Cicer arietinum L.), Ph.D. thesis, Universitiit Hohenheim, Germany, 1990. [Pg.84]

Y. Ohwaki and K. Sugahara, Active extrusion of protons and exudation of carboxylic acids in response to iron deficiency by roots of chickpea (Cicer arietiniim L.). Plant Soil 189 49 (1997). [Pg.86]

AOPP has been used in many studies to examine the role of PAL in the synthesis of secondary aromatic compounds. The results summarized in Table I indicate that levels of AOPP that have little or no effect on growth can strongly affect production of secondary aromatic products. Other studies have shown rapid cessation of isoflavone synthesis in Cicer ariethinum by 0.3 mM AOPP (61). [Pg.120]

Lazzaro MD, Thomson WW. The vacuolar-tubular continuum in living trichomes of chickpea (Cicer arietinum) provides a rapid means of solute delivery from base to tip. Protoplasma 1996 193 181-190. [Pg.90]

Rupela OP, Sudarshana MR (1990) Displacement of native rhizobia nodulating chickpea (Cicer arietinum L.) by an inoculant strain through soil solarization. Biol Fertil Soils 10 207-212. doi 10.1007/BF00336138... [Pg.269]

Abbreviations of plant species Qr, Quercus rubra Gj, Gardenia jasmlnoldes Ca, Cicer arletlnum Tm, Triglochin marltima ... [Pg.219]

Immunofluorescence techniques have been used to establish the sites of localization of / -glucosidases in spruce hypocotyls (9,61) and chickpea (Cicer arietinum L.) seedlings (46,62,63). In these investigations, the (3-glucosidases were associated with lignified elements (tracheids and endo-dermis tissue), as well as those containing suberin and cutin. [Pg.80]

Astragalus cicer Ornithopus Meliotus Vida hirsuta ... [Pg.221]

The genus Astragalus (Figure 107) clearly had different tendencies in evolutionary trait variations (P < 0.001). Astragalus arenarius, A. cicer and A. frigidus had similar evolutionary tendencies (MFC = 0.10) but their SDs differed, the... [Pg.227]

Veitch, N.C. and Stevenson, P.C., 2-Methoxyjudaicin, an isoflavene from the roots of Cicer bijugum. Phytochemistry, 44, 1587, 1997. [Pg.130]

Tiemann, K. et al., Pterocarpan phytoalexin biosynthesis in elicitor-challenged chickpea (Cicer arietinum L.) cell cultures. Purification, characterization and cDNA cloning of NADPHnsofiavone oxidoreductase. Eur. J. Biochem., 200, 751, 1991. [Pg.210]

Stevenson, P.C. and Veitch, N.C., A 2-arylbenzofuran from roots of Cicer bijugum associated with Fusarium wilt resistance, Phytochemistry, 48, 947, 1998. [Pg.1194]

Kaempferol-3 (3- glucoapioside kaempferol 4, 3,5,7-tetra- hydroxy- flavone Cicer arietinum (chick pea)37... [Pg.141]

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