Browse > Article
http://dx.doi.org/10.5713/ajas.2007.1485

ASCL2 Gene Expression Analysis and Its Association with Carcass Traits in Pigs  

Cheng, H.C. (Key Laboratory of Pig Genetics and Breeding, Ministry of Agriculture Huazhong Agricultural University)
Zhang, F.W. (Key Laboratory of Pig Genetics and Breeding, Ministry of Agriculture Huazhong Agricultural University)
Deng, C.Y. (Key Laboratory of Pig Genetics and Breeding, Ministry of Agriculture Huazhong Agricultural University)
Jiang, C.D. (Department of Bio-engineering, College of Animal Science, Southwest University)
Xiong, Y.Z. (Key Laboratory of Pig Genetics and Breeding, Ministry of Agriculture Huazhong Agricultural University)
Li, F.E. (Key Laboratory of Pig Genetics and Breeding, Ministry of Agriculture Huazhong Agricultural University)
Lei, M.G. (Key Laboratory of Pig Genetics and Breeding, Ministry of Agriculture Huazhong Agricultural University)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.20, no.10, 2007 , pp. 1485-1489 More about this Journal
Abstract
Achaete-scute like 2 (ASCL2) gene encodes a member of the basic helix-loop-helix transcription factor which is essential for the maintenance of proliferating trophoblasts during placental development. ASCL2 gene preferentially expresses the maternal allele in the mouse. However, it escapes genomic imprinting in the human. In this study, the complete open reading frame consisting of 193 amino acids of ASCL2 gene was obtained. Sequence analysis indicated that a C-G mutation existed in the 3' region between Meishan and Large White pigs. The polymorphism was used to determine the monoallelic or biallelic expression with RT-PCR-RFLP in pigs of Large $White{\times}Meishan$ $F_1$ hybrids. Imprinting analysis indicated that the ASCL2 gene expression was biallelic in all the tested tissues (heart, liver, spleen, lung, kidney, stomach, small intestine, skeletal muscle, fat, uterus, ovary and pituitary). PCR-RFLP was used to detect the polymorphism in 270 pigs of the "$Large\;White{\times}Meishan$" $F_2$ resource population. The statistical results showed highly significant associations of the genotypes and fat meat percentage (FMP), lean meat percentage (LMP) and ratio of lean to fat (RLF) (p<0.01), and significant associations of the genotypes and loin eye area (LEA) and internal fat rate (IFR) (p<0.05).
Keywords
ASCL2; Imprinting; Porcine; Carcass Traits; Polymorphism;
Citations & Related Records

Times Cited By Web Of Science : 3  (Related Records In Web of Science)
Times Cited By SCOPUS : 3
연도 인용수 순위
1 Dai, L. H., Y. Z. Xiong, C. Y. Deng, S. W. Jiang, B. Zuo, R. Zheng, F. E. Li and M. G. Lei. 2006. Association of the A-G polymorphism in porcine adiponectin gene with fat deposition and carcass traits. Asian-Aust. J. Anim. Sci. 19:779-783.   과학기술학회마을   DOI
2 Estelle, J., A. Mercade, J. L. Noguera, M. Perez-Enciso, C. Ovilo, A. Sanchez and J. M. Folch. 2005. Effect of the porcine IGF2- intron3-G3072A substitution in an outbred Large White population and in an Iberian${\times}$Landrace cross. J. Anim. Sci. 83:2723-2728.
3 Guillemot, F., T. Caspary, S. M. Tilghman, N. G. Copeland, D. J. Gilbert, N. A. Jenkins, D. J. Anderson, A. L. Joyner, J. Rossant and A. Nagy. 1995. Genomic imprinting of Mash2, a mouse gene required for trophoblast development. Nat. Genet. 9:235-242.   DOI   ScienceOn
4 Wang, G., B. Yan, X. Deng, C. Li, X. Hu and N. Li. 2005. Insulinlike growth factor 2 as a candidate gene influencing growth and carcass traits and its bialleleic expression in chicken. Sci. China. C. Life. Sci. 48:187-194.   DOI
5 Xiong, Y. Z. and C. Y. Deng. 1999. Technical testing rule of lean pig. Chinese Agricultural Press, Beijing.
6 Zhang, F. W., H. C. Cheng, C. Y. Deng, Y. Z. Xiong, F. E. Li and M. G. Lei. 2006. cDNA cloning, tissue expression and association of porcine pleiomorphic adenoma gene-like 1 (PLAGL1) gene with carcass traits. Asian-Aust. J. Anim. Sci. 19:1257-1261.   과학기술학회마을   DOI
7 Andersson, L., C. S. Haley, H. Ellegren, S. A. Knott, M. Johansson, K. Andersson, L. Andersson-Eklund, I. Edfors-Lilja, M. Fredholm and I. Hansson. 1994. Genetic mapping of quantitative trait loci for growth and fatness in pigs. Sci. 263:1771-1774.   DOI
8 Reik, W., F. Santos and W. Dean. 2003. Mammalian epigenomics: reprogramming the genome for development and therapy. Theriogenol. 59:21-32.   DOI   ScienceOn
9 Jubb, A. M., S. Chalasani, G. D. Frantz, R. Smits, H. I. Grabsch, V. Kavi, N. J. Maughan, K. J. Hillan, P. Quirke and H. Koeppen. 2006. Achaete-scute like 2 (ascl2) is a target of Wnt signalling and is upregulated in intestinal neoplasia. Oncogene. 25:3445-3457.   DOI   ScienceOn
10 Alexander, L. J., D. L. Troyer, G. A. Rohrer, T. P. Smith, L. B. Schook and C. W. Beattie. 1996. Physical assignments of 68 porcine cosmid and lambda clones containing polymorphic microsatellites. Mamm. Genome. 7:368-372.   DOI
11 Miyamoto, T., S. Hasuike, Y. Jinno, H. Soejima, K. Yun, K. Miura, M. Ishikawa and N. Niikawa. 2002. The human ASCL2 gene escaping genomic imprinting and its expression pattern. Assist. Reprod. Genet. 19:240-244.   DOI   ScienceOn
12 Liu, B. H. 1998. Statistical genomics: linkage, mapping, and QTL analysis. CRC Press, LLC
13 Jungerius, B. J., A. S. van Laere, M. F. Te Pas, B. A van Oost, L. Andersson and M. A. Groenen. 2004. The IGF2-intron3- G3072A substitution explains a major imprinted QTL effect on backfat thickness in a Meishan${\times}$European white pig intercross. Genet. Res. 84:95-101.   DOI   ScienceOn
14 Koning, D. J., A. P. Rattink, B. Harlizius, J. A. Arendonk, E. W. Brascamp and M. A. Groenen. 2000. Genome-wide scan for body composition in pigs reveals important role of imprinting. Proc. Natl. Acad. Sci. USA. 97:7947-7950   DOI   ScienceOn
15 Lee, M., P. S. Brandenburg, G. M. Landes, M. Adams, G. Miller and A. P. Feinberg. 1999. Two novel genes in the center of the 11p15 imprinted domain escape genomic imprinting. Hum. Mol. Genet. 8:683-690.   DOI   ScienceOn
16 Jeon, J. T., O. Carlborg, A. Tornsten, E. Giuffra, V. Amarger, P. Chardon, L. Andersson-Eklund, K. Andersson, I. Hansson, K. Lundstrom and L. Andersson. 1999. A paternally expressed QTL affecting skeletal and cardiac muscle mass in pigs maps to the IGF2 locus. Nat. Genet. 21:157-158.   DOI   ScienceOn
17 Nezer, C., L. Moreau, B. Brouwers, W. Coppieters, J. Detilleux, R. Hanset, L. Karim, A. Kvasz, P. Leroy and M. Georges. 1999. An imprinted QTL with major effect on muscle mass and fat deposition maps to the IGF2 locus in pigs. Nat. Genet. 21:155-156.   DOI   ScienceOn
18 Nolan, C. M., J. K. Killian, J. N. Petitte and R. L. Jirtle. 2001. Imprint status of M6P/IGF2R and IGF2 in chickens. Dev. Genes. Evol. 211:179-183.   DOI
19 Smith, R. J., W. Dean, G. Konfortova and G. Kelsey. 2003. Identification of novel imprinted genes in a genome-wide screen for maternal methylation. Genome Res. 13:558-569.   DOI   ScienceOn
20 Stepan, H., W. Marqwardt, Y. Kuhn, M. Hockel, H. P. Schultheiss and T. Walther. 2003. Structure and regulation of the murine Mash2 gene. Biol. Reprod. J. 68:40-44.   DOI