Singh Jagdish, Kanaujia Rajani, Srivastava A K, Dixit G P, Singh N P
Division of Basic Sciences, ICAR-Indian Institute of Pulses Research, Kanpur, UP 208 024 India.
Division of Crop Improvement, ICAR-Indian Institute of Pulses Research, Kanpur, UP 208 024 India.
J Food Sci Technol. 2017 Mar;54(4):1035-1042. doi: 10.1007/s13197-017-2548-1. Epub 2017 Feb 20.
The mineral content of pulses is generally high, but the bioavailability is poor due to the presence of phytate and polyphenols which inhibits Fe absorption. In the present study, the genetic variability and heritability for seed Fe and Zn content was studied. The effect of genotypes was significant for all the quality traits indicating presence of enough variability among the blackgram genotypes for the traits. The Fe content in 26 blackgram genotypes ranged from 71.02 to 100.20 ppm, whereas Zn content ranged from 18.93 to 60.58 ppm. Maximum Fe as well as Zn was recorded in genotype SHEKHAR 2 (100.2 and 60.58 ppm respectively). The Phytic acid and polyphenol content among genotypes varied significantly and it ranged from 0.06-0.37% to 5.88-9.03 mg/g, respectively. High phytic acid content was recorded in black gram genotypes COBG 653, Nodai Urd, NP 03 and PKG U 03, whereas high polyphenol content was recorded in PU 31, IPU 99-200, PDU 1 and YAKUBPUR 2. Blackgram genotype COBG 653 had high phytic acid but low polyphenol content. The genotype × year interaction was significant for all the traits under study which indicates differential reaction to the expression of quality characters over years. Fe content in blackgram genotypes showed significant positive phenotypic correlation with Zn content while at genotypic level in addition to Zn, it showed positive correlation with phytic acid and polyphenol content as well. This indicates that although the traits are genotypically correlated, the expression is masked by the environmental influence. This is further exhibited from low heritability estimates for phytic acid and polyphenol content among the genotypes.
豆类的矿物质含量通常较高,但由于存在植酸盐和多酚,会抑制铁的吸收,导致生物利用率较低。在本研究中,对种子中铁和锌含量的遗传变异性和遗传力进行了研究。基因型对所有品质性状的影响均显著,表明黑豆基因型在这些性状上存在足够的变异性。26个黑豆基因型的铁含量在71.02至100.20 ppm之间,而锌含量在18.93至60.58 ppm之间。基因型SHEKHAR 2的铁和锌含量最高(分别为100.2和60.58 ppm)。基因型间的植酸和多酚含量差异显著,分别在0.06 - 0.37%至5.88 - 9.03 mg/g之间。黑豆基因型COBG 653、Nodai Urd、NP 03和PKG U 03的植酸含量较高,而PU 31、IPU 99 - 200、PDU 1和YAKUBPUR 2的多酚含量较高。黑豆基因型COBG 653的植酸含量高但多酚含量低。基因型×年份互作对所有研究性状均显著,这表明多年来品质性状的表达存在差异反应。黑豆基因型中的铁含量与锌含量呈显著正表型相关,而在基因型水平上,除了锌之外,它还与植酸和多酚含量呈正相关。这表明,尽管这些性状在基因型上相关,但其表达受到环境影响的掩盖。这从基因型中植酸和多酚含量的低遗传力估计值中进一步体现出来。