An Investigation of Polymorphism in &amp;lt;i&amp;gt;SMO&amp;lt;/i&amp;gt; and &amp;lt;i&amp;gt;LMF&amp;lt;/i&amp;gt;1 Genes and Their Association with Body Size in White Fulani and Muturu Cattle Breeds

Ridwan O Ahmed,Ibrahim Shu’Aibu,Semiu F Bello,Matthew J Hegarty

doi:10.4236/abb.2020.117023

Abstract

Cattle production is integral to the people of Africa and her economy. To improve cattle productivity, there is a need to inculcate molecular marker-assisted selection into current breeding practices. In this study, we investigated, in White Fulani and Muturu cattle breeds, polymorphism of two candidate genes (Smoothened—SMO and Lipase Maturation Factor 1—LMF1) that have been reported to influence body size in cattle. The SMO gene encodes for the SMO (smoothened) receptor protein; a membrane signal transducer that plays a role in the control of bone formation and adipogenesis. LMF1 encodes for the LMF1 protein which regulates post-translational maturation of vascular lipases. Desired regions of the genes were amplified and genotyped by direct DNA sequencing or Polymerase chain reaction—Restriction Fragment Length Polymorphism. For association study, linear body measurements traits (BMTs) that can be used to predict body size were measured on each animal and values of BMTs measured were compared between both breeds. Very significant (P SMO while LMF1 was monomorphic at the expected (T > C) exon 4 mutation site. Association analysis revealed that polymorphism on G21234C, C22424T, T22939C and T23458G loci significantly affected BMTs (P SMO gene could be a useful candidate gene to facilitate marker assisted selection for body size while LMF1 is monomorphic in the cattle breeds.

Highlights

Cattle production is integral to the people of Africa and her economy
We investigated, in White Fulani and Muturu cattle breeds, polymorphism of two candidate genes (Smoothened—SMO and Lipase Maturation Factor 1—Lipase maturation factor 1 (LMF1)) that have been reported to influence body size in cattle
The outcome of this study showed that SMO gene could be a useful candidate gene to facilitate marker assisted selection for body size while LMF1 is monomorphic in the cattle breeds

Summary

Introduction

Cattle production is integral to the people of Africa and her economy It contributes 33% of the agricultural GDP in developing countries [1]. The SMO gene has been marked as having a contributory role in skeletal tissue development and adipogenesis in both vertebrates and invertebrate [4] It encodes for the SMO (smoothened) receptor protein; a membrane signal transducer that plays a role in the control of bone formation and adipogenesis through the hedgehog signalling pathway [4, 5]. In 2015, [6] conducted a study that confirmed the hypothesis that variation in bovine SMO gene influences body size in cattle. To the best of our knowledge, there is no information about polymorphism of this gene in African cattle

Methods

Results

Conclusion