Association of ghrelin gene polymorphisms with slaughter traits in pig

Blanchard P.J., Willis M.B., Warkup C.C., Ellis M. (2000). The influence of carcass backfat and intramuscular fat level on pork eating quality. J. Sci. Food Agric., 80: 145–151. Search in Google Scholar

Borzuta K., Lisiak D. (2016). Ewolucja wartości rzeźnej trzody chlewnej w Polsce w ostatnim sześćdziesięcioleciu (in Polish). Prz. Hodow., 4: 1–6. Search in Google Scholar

Braz C.U., Camargo G.M., Cardoso D.F., Gil F.M., Fonseca P.D., Cyrillo J.N., Mercadante M.E., Oliveira H.N., Tonhati H. (2015). Polymorphisms in the GHRL gene and their associations with traits of economic interest in beef cattle. Genet. Mol. Res., 14: 18188–18197. Search in Google Scholar

Cummings D.E., Purnell J.Q., Frayo R.S., Schmidova K., Wisse B.E., Weigle D.S. (2001). A preprandial rise in plasma ghrelin levels suggests a role in meal initiation in humans. Diabetes, 50: 1714–1719. Search in Google Scholar

Dong X.X., Bai G.C., Li M.L., Lan G.X., Yan D.W., Wang X.Y., Chen Q., Lu S.X. (2023). Relationship between GHRL gene polymorphisms and growth traits in pigs. Pakistan J. Zool., 55: 145–151. Search in Google Scholar

Fontanesi L., Galimberti G., Calò D.G., Fronza R., Martell, P.L., Scotti E., Colombo M., Schiavo G., Casadio R., Buttazzoni L., Russo V. (2012). Identification and association analysis of several hundred single nucleotide polymorphisms within candi-date genes for back fat thickness in Italian Large White pigs using a selective genotyping approach. J. Anim. Sci., 90: 2450–2464. Search in Google Scholar

Gnanapavan S., Kola B., Bustin S.A., Morris D.G., McGee P., Fairclough P., Bhattacharya S., Carpenter R., Grossman A.B., Korbonits M. (2002). The tissue distribution of the mRNA of ghrelin and subtypes of its receptor, GHS-R, in humans. J. Clin. Endocrinol. Metab., 87: 2988–2991. Search in Google Scholar

Gueorguiev M., Lecoeur C., Benzinou M., Mein C.A., Meyre D., Vatin V., Weill J., Heude B., Grossman A.B., Froguel P., Korbonits M. (2009). A genetic study of the ghrelin and growth hormone secretagogue receptor (GHSR) genes and stature. Ann. Hum. Genet., 73: 1–9. Search in Google Scholar

Imaizumi T., Ando M., Nakatochi M., Yasuda Y., Honda H., Kuwatsuka Y., Kato S., Kondo T., Iwata M., Nakashima T., Yasui H., Takamatsu H., Okajima H., Yoshida Y., Maruyama S. (2018). Effect of dietary energy and polymorphisms in BRAP and GHRL on obesity and metabolic traits. Obesity Res. Clin. Pract., 12: 39–48. Search in Google Scholar

Kaczor U., Poltowicz K., Kucharski M., Sitarz A.M., Nowak J., Wojtysiak D., Zieba D.A. (2017). Effect of ghrelin and leptin receptors genes polymorphisms on production results and physicochemical characteristics of M. pectoralis superficialis in broiler chickens. Anim. Prod. Sci., 57: 42–50. Search in Google Scholar

Khaerunnisa I., Jakaria J., Arief I.I., Budiman C., Sumantri C. (2017). The ghrelin receptor (GHSR) gene polymorphism in Indonesian local chicken and crossbreed is associated with carcass traits. Anim. Prod., 19: 71–80. Search in Google Scholar

Kim K.S., Thomsen H., Bastiaansen J., Nguyen N.T., Dekkers J.C., Plastow G.S., Rothschild M.F. (2004). Investigation of obesity candidate genes on porcine fat deposition quantitative trait loci regions. Obes. Res., 12: 1981–1994. Search in Google Scholar

Kojima M., Hosoda H., Date Y., Nakazato M., Matsuo H., Kangawa K. (1999). Ghrelin is a growth-hormone-releasing acylated peptide from stomach. Nature, 402: 656–660. Search in Google Scholar

Lei M., Luo C., Peng X., Fang M., Nie Q., Zhang D., Yang G., Zhang X. (2007). Polymorphism of growth-correlated genes associated with fatness and muscle fiber traits in chickens. Poultry Sci., 86: 835–842. Search in Google Scholar

Li P., Tiwari H.K., Lin W.-Y., Allison D.B., Chung W.K., Leibel R.L., Ly N., Liu N. (2014). Genetic association analysis of 30 genes related to obesity in a European American population. Int. J. Obesity., 38: 724–729. Search in Google Scholar

Llamas-Covarrubias I.M., Llamas-Covarrubias M.A., Martinez-López E., Zepeda-Carrillo E.A., Rivera-León E.A., Palmeros-Sánchez B., Alcalá-Zermeño J.L., Sánchez-Enríquez S. (2017). Association of A-604G ghrelin gene polymorphism and serum ghrelin levels with the risk of obesity in a Mexican population. Mol. Biol. Rep., 44: 289–293. Search in Google Scholar

Męczekalski B., Czyżyk A., Warenik-Szymankiewicz A. (2008). The role of genes in pathogenesis of obesity. Contemporary view, pathogenesis, clinical aspects (in Polish). Endokrynol. Otył. Zaburz. Przem. Mat., 5: 27–37. Search in Google Scholar

Moskvina V., Schmidt K.M. (2006). Susceptibility of biallelic haplotype and genotype frequencies to genotyping error. Biometrics, 62: 1116–1123. Search in Google Scholar

Nie Q., Fang M., Xie L., Peng X., Xu H., Luo C., Zhang D., Zhang X. (2009). Molecular characterization of the ghrelin and ghrelin receptor genes and effects on fat deposition in chicken and duck. J. Biomed. Biotechnol., 2009: 567120, 12 pp. Search in Google Scholar

Ropka-Molik K., Oczkowicz M., Piórkowska K., Różycki M., Romanek J., Natonek-Wiśniewska M. (2011). New polymorphisms and expression of the porcine ghrelin (GHRL) gene in different pig breeds. J. Anim. Feed Sci., 20: 186–199. Search in Google Scholar

Różycki M., Tyra M. (2010). Metodyka oceny wartości tucznej i rzeźnej świń przeprowadzana w stacjach kontroli użytkowości rzeźnej trzody chlewnej (SKURTCh). In: Stan hodowli i wyniki oceny świń (in Polish). Instytut Zootechniki PIB, Kraków, XXVIII: 93–117. Search in Google Scholar

Seim I., Crisp G., Shah E. T., Jeffery P. L., Chopin L.K. (2017). Abundant ghrelin gene expression by monocytes: Putative implications for fat accumulation and obesity. Obesity Medicine, 5: 1–3. Search in Google Scholar

Sun W.-K., Cheng C., Liu R., Chen Y.-H., Zeng K., Chen X.-H., Gu Y.-R., Li J.-L., Lv X.-B., Gao R. (2019). Expression patterns of GHRL, GHSR, LEP, LEPR, SST and CCK genes in the gastrointestinal tissues of Tibetan and Yorkshire pigs. Czech J. Anim. Sci., 64: 239–247. Search in Google Scholar

Szulc K., Lisiak D., Grześkowiak E., Nowaczewski S. (2012). The influence of cross-breeding Zlotnicka Spotted native breed sows with boars of Duroc (D) and Polish Large White (PLW) breeds on meat quality. Afric. J. Biotech., 11: 4471–4477. Search in Google Scholar

Tanaka K., Takizawa T., Oki O., Fukawa K., Ito T., Miyabe M., Mannen H., Kurosawa Y., Hirose K. (2015). Allele frequency for c.335 A>C polymorphisms in porcine ghrelin/obestatin prepropeptide gene and association analysis with performance traits in various pig breeds. Czech J. Anim. Sci., 60: 2015–2411. Search in Google Scholar

Tschöp M., Weyer C., Tataranni P.A., Devanarayan V., Ravussin E., Heiman M.L. (2001). Circulating ghrelin levels are decreased in human obesity. Diabetes, 50: 707–709. Search in Google Scholar

Turner S., Armstrong L.L., Bradford Y., Carlson C.S., Crawford D.C., Crenshaw A.T., de Andrade M., Doheny K.F., Haines J.L., Hayes G., Jarvik G., Jiang L., Kullo I.J., Li R., Ling R., Manolio T.A., Matsumoto M., McCarty C.A., McDavid A.N., Mirel D.B., Paschall J.E., Pugh E.W., Rasmussen L.V., Wilke R.A., Zuvich R.L., Ritchie M.D. (2011). Quality control procedures for genome wide association studies. Curr. Protoc. Hum. Genet., 1: 1.19. Search in Google Scholar

Ukkola O., Ravussin E., Jacobson P., Snyder E.E., Chagnon M., Sjöström L., Bouchard C. (2001). Mutations in the preproghrelin/ghrelin gene associated with obesity in humans. J. Clin. Endocrinol. Metab., 86: 3996–3999. Search in Google Scholar

Ukkola O., Ravussin E., Jacobson P., Pérusse L., Rankinen T., Tschöp M., Heiman M.L., Leon A.S., Rao D.C., Skinner J.S., Wilmore J.H., Sjöström L., Bouchard C. (2002). Role of ghrelin polymorphisms in obesity based on three different studies. Obes. Res., 10: 782–791. Search in Google Scholar

Van der Lely A.J., Tschöp M., Heiman M.L., Ghigo E. (2004). Biological, physiological, pathophysiological, and pharmacological aspects of ghrelin. Endocr. Rev., 25: 426–457. Search in Google Scholar

Van Poucke M., Yerle M., Tuggle C., Piumi F., Genêt C., Van Zeveren A., Peelman L.J. (2001). Integration of porcine chromosome 13 maps. Cytogenet. Cell Genet., 93: 297–303. Search in Google Scholar

Wojtysiak D., Kaczor U. (2011). Effect of polymorphisms at the ghrelin gene locus on carcass, microstructure and physicochemical properties of longissimus lumborum muscle of Polish Landrace pigs. Meat Sci., 89: 514–518. Search in Google Scholar

Zhang B., Chen H., Yikun G., Zhang L., Miao A., Lan X., Zhang C., Pan C., Hu S., Wang J., Lei C. (2009). Associations of polymorphism within the GHSR gene with growth traits in Nanyang cattle. Mol. Biol. Evol., 36: 2259–2263. Search in Google Scholar

Zigman J.M., Jones J.E., Lee C.E., Saper C.B., Elmquist J.K. (2006). Expression of ghrelin receptor mRNA in the rat and the mouse brain. J. Comp. Neurol., 494: 528–548. Search in Google Scholar