Insulin-like growth factor-1 polymorphism and its association with economic traits in Kadaknath and its crossbred birds

KEERTI DHURVE; S N S PARMAR; M S THAKUR; VIKAS MAHAJAN

doi:10.56093/ijans.v82i12.25684

Authors

KEERTI DHURVE Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India
S N S PARMAR Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India
M S THAKUR Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India
VIKAS MAHAJAN Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India

https://doi.org/10.56093/ijans.v82i12.25684

Keywords:

Economic traits, Insulin-like growth factor-1, IGF-1 gene, Kadaknath, Kadaknath crossbred birds, PCR-RFLP

Abstract

Insulin-like growth factor-1 (IGF-1) gene polymorphism has been investigated by PCR-RFLP method on 80 unrelated female birds each of Kadaknath and its crossbred selected randomly from Department of Poultry Science of the University. The 3 different RFLP patterns revealed restriction fragment of 621, 364 and 257 bp sizes in Kadaknath and Kadaknath crossbred birds. This indicated presence of 2 restriction sites at 621 bp (site A) and 364, 257 bp (site B) position in 621bp amplicon. Genotypic frequencies in Kadaknath and Kadaknath crossbred birds were found to be 0.41 and 0.35 for AA genotype, 0.37 and 0.38 for AB genotype and 0.21 and 0.27 for BB genotype, respectively, whereas the allelic frequencies in Kadaknath and Kadaknath crossbred birds were 0.60 and 0.54 for A allele and 0.40 and 0.46 for B allele respectively. The Kadaknath population was in Hardy Weinberg equilibrium, however Kadaknath crossbred population under study was not in Hardy Weinberg equilibrium. The differences between least squares means of various genotypes for age at sexual maturity and adult body weight at 20, 40 and 52 weeks were nonsignificant (P>0.05). Genotype BB was superior for body weight at 20, 40 and 52 weeks in Kadaknath and Kadaknath crossbred birds. Significant breed × genotype interaction was found for egg production at 40 weeks of age and higher egg production was recorded for AA genotype in Kadaknath and AB genotype in Kadaknath crossbred birds. Genotype AA was superior for egg weight at 40 and 52 weeks in Kadaknath and Kadaknath crossbred birds.

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Author Biographies

KEERTI DHURVE, Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India
S N S PARMAR, Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India
M S THAKUR, Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India
VIKAS MAHAJAN, Madhya Pradesh Pashu Chikitsa Vishwa Vidyalaya, Jabalpur, Madhya Pradesh 482 001 India

References

Beccavin C, Chevalier B, Cogburn L A, Simon I and Duclos M J. 2001. Insulin-like growth factors in chicken divergently selected for high or low growth rate. Journal of Endocrinology 168: 297– 306.

Bian L H, Wang S Z, Zhang S, Wang Y X and Li H. 2008. Variation at the insulin like growth factor-1 gene and its association with body weight traits in the chicken. Journal of Animal Breeding and Genetics 125: 265–70.

Enayati B and Rahimi-Mianji G. 2009. Genomic growth hormone, growth hormone receptor and transforming growth factor –3 gene polymorphism in breeder hens of Mazandaran native fowls. African Journal of Biotechnology 8 (14): 3154–59.

Harvey W R. 1990. Mixed Model Least- square and Maximum LIkelihood Computer Program. PC-2 version. User’s Guide for LSMLMW and MIXMDL. The Ohio State University, Columbus, OH, USA.

Hillel J, Danngton E A and Soegel P B. 1992. DNA marker in poultry breeding and genetics analysis. Poultry Science Review 4: 169–86.

John S W, Weitzner G, Rozen R and Scriver C R. 1991. A rapid procedure for extracting genomic DNA from leukocytes. Nucleic Acids Research 19 (2): 408.

Kaur T, Kumar G V P P S R, Bajwa I S and Trehan P K. 2008. PCR-RFLP of growth hormone gene in meat type chicken. Indian Journal of Poultry Science 43 (2): 129–33.

Li H F, Zhu W, Chen K W, Wu X, Tang Q P and Gao Y. 2008. Association between GHR and IGF-1 gene polymorphism and reproductive traits in Wenchang chickens. Turkish Journal of Veterinary and Animal Sciences 32 (4): 281–85.

Li W, Li F and Li D. 2009. IGF-1 Gene polymorphism and weight related analysis. International Journal of Biology 1 (2): 113–18.

Nagaraja S C, Aggrey S E, Yao J, Zadworny D, Fairfull R W and Kuhnlein U. 2000. Trait association of a genetic marker near the IGF-I gene in egg-laying chickens. Journal of Heredity 91: 150–156

Shafi S, Fatima S, Rank D N, Khanna K and C G Joshi. 2008. Growth hormone gene polymorphism and its correlation with different traits in Bantan and White Hegho chicken. Indian Journal of Poultry Science 43 (2): 123–27.

Singh S P, Brah G S, Amrita C and Ravi Kumar G V P P S R. 2008. PCR-RFLP of chicken growth hormone gene in egg type chickens. Indian Journal of Poultry Science 43 (1): 1–4.

Thakur M S, Parmar S N S, Chaudhari M V and Bhardwaj J K. 2009. Growth hormone gene polymorphism and its association with egg production in Kadaknath chicken. Livestock Research for Rural Development 21: 132 (http://www.lrrd.org/lrrd21/8/ thak21132.htm).

Yeh F C, Yeng R, Timothy T J B, Ye Z H and Judy X M. 1999. The user-friendly shareware for population genetic analysis. PROGENE 32 version 1.32, Molecular Biology and Biotechnology centre. University of Alberta, erta, Canada. .