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<FONT FACE=Symbol>k</FONT>-Casein, <FONT FACE=Symbol>b</FONT>-lactoglobulin and growth hormone allele frequencies and genetic distances in Nelore, Gyr, Guzerá, Caracu, Charolais, Canchim and Santa Gertrudis cattle

Abstracts

The genotypes for k-casein (<FONT FACE="Symbol">k</FONT>-CN), <FONT FACE="Symbol">b</FONT>-lactoglobulin (<FONT FACE="Symbol">b</FONT>-LG) and growth hormone (GH) were determined by polymerase chain reaction (PCR) and restriction enzyme digestion in seven breeds of cattle (Nelore, Gyr, Guzerá, Caracu, Charolais, Canchim and Santa Gertrudis). <FONT FACE="Symbol">k</FONT>-Casein had two alleles with the A allele occurring at a higher frequency in Bos indicus breeds (0.93, 0.92 and 0.91% for Gyr, Guzerá and Nelore, respectively). The <FONT FACE="Symbol">b</FONT>-lactoglobulin locus had two alleles in all of the breeds. European breeds had a higher frequency of the <FONT FACE="Symbol">b</FONT>-LG A allele than Zebu breeds. The GH locus had two alleles (L and V) in Bos taurus and was monomorphic (L allele only) in all of the Bos indicus breeds evaluated. The highest frequency for the V allele was observed in Charolais cattle. The markers used revealed a considerable similarity among breeds, with two main groups being discernible. One group consisted of Zebu and Santa Gertrudis breeds and the other consisted of European and Canchim breeds.


Os genótipos de <FONT FACE="Symbol">k</FONT>-caseína (<FONT FACE="Symbol">k</FONT>-CN), <FONT FACE="Symbol">b</FONT>-lactoglobulina (<FONT FACE="Symbol">b</FONT>-LG) e hormônio de crescimento foram determinados por reação em cadeia de polimerase (PCR) e digestão com enzima de restrição em sete raças de bovinos (Nelore, Gir, Guzerá, Caracu, Charolesa, Canchim and Santa Gertrudis). A <FONT FACE="Symbol">k</FONT>-caseína apresentou dois alelos e as freqüências mais elevadas para o alelo A foram observadas em Bos indicus (0,93, 0,92 e 0,91% para as raças Gir, Guzerá e Nelore, respectivamente). A <FONT FACE="Symbol">b</FONT>-lactoglobulina apresentou dois alelos em todas as raças estudadas, sendo a freqüência do alelo A mais elevada nas raças européias. O loco de hormônio de crescimento apresentou dois alelos em Bos taurus e foi monomórfico (alelo L) em todas as raças zebuínas. A maior freqüência para o alelo V foi observado na raça Charolesa. Os marcadores investigados revelaram alta similaridade entre as raças, com a formação de dois grupos principais: um composto de raças zebuínas e a raça Santa Gertrudis e outro composto das raças européias e a raça Canchim.


k-CASEIN, b-LACTOGLOBULIN AND GROWTH HORMONE ALLELE FREQUENCIES AND GENETIC DISTANCES IN NELORE, GYR, GUZERÁ, CARACU, CHAROLAIS, CANCHIM AND SANTA GERTRUDIS CATTLE

Paola Augusta Kemenes1, Luciana Correia de Almeida Regitano2, Artur Jordão de Magalhães Rosa3, Irineu Umberto Packer4, Alexander George Razook5, Leopoldo Andrade de Figueiredo5, Nirlei Aparecida Silva4, Maria Antônia L. Etchegaray4 and Luiz Lehmann Coutinho4

1Agroceres PIC, Rio Claro, SP, Brasil.

2CPPSE-Embrapa, São Carlos, SP, Brasil.

3Departamento de Genética, FMRP-USP, Ribeirão Preto, SP, Brasil.

4Departamento de Zootecnia, ESALQ-USP, Av. Pádua Dias, 11, 13418-900 Piracicaba, SP, Brasil. Send correspondence to L.L.C.

5Instituto de Zootecnia de Sertãozinho, Sertãozinho, SP, Brasil.

ABSTRACT

The genotypes for k-casein (k-CN), b-lactoglobulin (b-LG) and growth hormone (GH) were determined by polymerase chain reaction (PCR) and restriction enzyme digestion in seven breeds of cattle (Nelore, Gyr, Guzerá, Caracu, Charolais, Canchim and Santa Gertrudis). k-Casein had two alleles with the A allele occurring at a higher frequency in Bos indicus breeds (0.93, 0.92 and 0.91% for Gyr, Guzerá and Nelore, respectively). The b-lactoglobulin locus had two alleles in all of the breeds. European breeds had a higher frequency of the b-LG A allele than Zebu breeds. The GH locus had two alleles (L and V) in Bos taurus and was monomorphic (L allele only) in all of the Bos indicus breeds evaluated. The highest frequency for the V allele was observed in Charolais cattle. The markers used revealed a considerable similarity among breeds, with two main groups being discernible. One group consisted of Zebu and Santa Gertrudis breeds and the other consisted of European and Canchim breeds.

INTRODUCTION

Milk protein polymorphisms have been studied intensively because of their effect on the yield and processing properties of milk and its products. k-Casein constitutes about 25% of the casein fraction of milk and b-lactoglobulin accounts for about 75% of the albumin fraction. Several polymorphisms have been found for each of these proteins. k-Casein variants A and B differ by two amino acid substitutions, Thr136/Ile and Asp148/Ala (Lin et al., 1992). The b-lactoglobulin variants A and B also differ by two amino acid substitutions, Asp64/Gly and Val118/Ala. The B variants of k-casein and b-lactoglobulin are associated with an increase in milk protein and fat content as well as cheese production (Van Eenennaam and Medrano, 1991; Bovenhuis et al., 1992).

Another gene intensively investigated in farm animals is that of growth hormone (GH). GH deserves special attention because of its major role in milk production and post-natal growth and development. Two GH alleles that differ by a valine (V)/leucine (L) substitution at position 127 have been identified and are easily detected by PCR amplification and AluI digestion (Lucy et al., 1991). According to Schlee et al. (1994a), Simmental cattle carrying the heterozygous LV genotype have a superior weight gain and carcass composition.

Of the three most common Bos indicus breeds raised in Brazil (Nelore, Gyr and Guzerá), the Nelore form the main basis of the Brazilian cattle population. Unlike in India, Bos indicus bred in Brazil are used mostly for meat production, an exception being the Gyr breed which is also bred for milk production. Caracu cattle represent a dual purpose breed produced in Brazil from cattle brought from Portugal during colonization. Canchim and Santa Gertrudis cattle are hybrids derived from a cross between Bos indicus and Bos taurus: Canchim is 5/8 Charolais and 3/8 Zebu, while Santa Gertrudis is 5/8 Shorthorn and 3/8 Brahman.

Despite their importance for the Brazilian cattle industry, little is known of the allelic frequencies or DNA polymorphisms of these breeds. The purpose of this study, therefore, was to estimate the allelic frequencies of k-casein, b-lactoglobulin and growth hormone, as well as the genetic distances among Nelore, Gyr, Guzerá, Caracu, Charolais, Canchim and Santa Gertrudis cattle raised in Brazil.

MATERIAL AND METHODS

Genomic DNA was obtained from unrelated Nelore (N = 63), Gyr (N = 20), Guzerá (N = 25), Caracu (N = 30), Charolais (N = 32), Canchim (N = 30) and Santa Gertrudis (N = 20) cattle. For the determination of k-casein and b-lactoglobulin in Gyr cattle, an additional group of 63 animals of unknown relationships was also analyzed. DNA was obtained by simple digestion with proteinase K (Innis, 1992) or by digestion with proteinase K and salt extraction (Olerup and Zetterquist, 1992). PCR for k-casein, b-lactoglobulin and growth hormone was performed as described by Medrano and Aguilar-Cordova (1990), Ron et al. (1994) and Schlee et al. (1994b), respectively. The PCR products and digested fragments were visualized by ethidium bromide staining following electrophoresis in 3% low melting point agarose gels. The allelic frequencies and standard errors were calculated for each locus. Genetic distances (Nei, 1978) were determined and a dendrogram constructed by the unweighted pair group method with arithmetical averages (UPGMA) method using the computer program NTSYS-PC (Rohlf, 1992).

RESULTS AND DISCUSSION

Table I shows the alelle frequencies and standard errors for k-casein, b-lactoglobulin and growth hormone in the breeds of cattle studied. The highest frequencies for the k-casein A allele were observed in Gyr, Guzerá and Nelore cattle (0.93, 0.92 and 0.91, respectively). The results for the Nelore and Gyr breeds agree with those reported by Del Lama and Zago (1996). A similar study conducted in dairy breeds showed that Holstein cattle have a higher frequency of the A allele than Jersey, Guernsey and dual purpose breeds (Van Eenennaam and Medrano, 1991). Among European dairy breeds, the k-casein A allele is associated with a higher milk production. However, this association did not occur among the Bos indicus breeds investigated in this study since Nelore, Gyr and Guzerá cattle had a higher frequency than Holsteins, and in milk-producing Gyr the frequency of the A allele was not significantly greater than in Nelore or Guzerá cattle. The k-casein A allele, however, could have an association within a specific breed and to further explore the association of this allele with milk production, we compared Gyr animals from a herd selected for meat (Instituto de Zootecnia (IZ), Sertãozinho) and one selected for milk production (IZ, Riberão Preto). As shown in Table II, the frequency of the A allele for k-casein was similar in both herds.

The GH locus had two alleles in Bos taurus and was monomorphic (L allele only) in the Bos indicus breeds (Table I). The frequency of the V allele was small in the hybrid breeds and the highest frequency for the V allele was observed in Charolais. Based on a genetic composition of 5/8 Charolais, the expected frequency for the V allele in Canchim would be 0.17 whereas the observed frequency was 0.10. This result could represent a sampling artifact, but it is also possible that the gene frequencies of the Charolais population sampled differed from the population used nearly 50 years ago in the crosses to obtain Canchim cattle.

The genetic distances among the breeds are shown in Figure 1. Although the markers investigated were similar to each other among breeds, two main groups were discernible. One consisted of the Zebu and Santa Gertrudis breeds, and the other consisted of the European and Canchim breeds. In the first cluster, the hybrid breed Santa Gertrudis diverged from the Zebu breeds. In the second cluster, Caracu and Charolais were more similar to each other than to Canchim. Thus, the markers investigated did not provide the expected separation of the breeds. The Santa Gertrudis breed being 5/8 European was expected to be closer to European breeds. Although the finding for Santa Gertrudis cattle was somewhat unexpected, similar results were obtained in a genetic distance analysis based on biochemical and immunological markers (Del Lama, 1991). The higher-than-expected similarity with Zebu cattle may reflect selection for Zebu genes after formation of the breed. Such an event would be expected if environmental conditions were to favor animals better adapted to the tropics.


ACKNOWLEDGMENTS

The authors thank the Secretaria de Ciência e Tecnologia do Estado de São Paulo, FAPESP and EMBRAPA/CPPSE for the financial support that was indispensable for the realization of this study. I.U.P, A.G.R., L.A.F. and L.L.C. are recipients of a research productivity scholarship from CNPq. Publication supported by FAPESP.

RESUMO

Os genótipos de k-caseína (k-CN), b-lactoglobulina (b-LG) e hormônio de crescimento foram determinados por reação em cadeia de polimerase (PCR) e digestão com enzima de restrição em sete raças de bovinos (Nelore, Gir, Guzerá, Caracu, Charolesa, Canchim and Santa Gertrudis). A k-caseína apresentou dois alelos e as freqüências mais elevadas para o alelo A foram observadas em Bos indicus (0,93, 0,92 e 0,91% para as raças Gir, Guzerá e Nelore, respectivamente). A b-lactoglobulina apresentou dois alelos em todas as raças estudadas, sendo a freqüência do alelo A mais elevada nas raças européias. O loco de hormônio de crescimento apresentou dois alelos em Bos taurus e foi monomórfico (alelo L) em todas as raças zebuínas. A maior freqüência para o alelo V foi observado na raça Charolesa. Os marcadores investigados revelaram alta similaridade entre as raças, com a formação de dois grupos principais: um composto de raças zebuínas e a raça Santa Gertrudis e outro composto das raças européias e a raça Canchim.

(Received July 25, 1998)

  • Bovenhuis, H., Van Arendonk, J.A.M. and Korver, S. (1992). Association between milk protein polymorphisms and milk production traits. J. Dairy Sci. 75: 2549-2559.
  • Del Lama, S.N. (1991). Caracterizaçăo genética das raças zebuínas criadas no Brasil através de polimorfismos protéicos e grupos sangüíneos. Ph.D. thesis, University of Săo Paulo, Ribeirăo Preto, SP.
  • Del Lama, S.N. and Zago, M.A. (1996). Identification of the kappa-casein and beta-lactoglobulin genotypes in Brazilian Bos indicus and Bubalus bubalis population. Braz. J. Genet. 19: 73-77.
  • Innis, M.A. (1992). Optimization of PCRs. In: PCR Protocols - A Guide to Methods and Applications (Innis, M.A., Gelfand, D.H. and Sninsky, J.J., eds.). Academic Press, Inc., San Diego, pp. 3-12.
  • Lin, C.Y., Sabour, M.P. and Lee, A.J. (1992). Direct typing of milk proteins as an aid for genetic improvement of dairy bulls and cows: A review. Anim. Breed. Abst. 60: 1-10.
  • Lucy, M.H., Hauser, S.D., Eppard, P.J., Krivi, G.G. and Collier, R.J. (1991). Genetic polymorphism within the bovine somatotropin (bST) gene detected by polymerase chain reaction and endonuclease digestion. J. Dairy Sci. 74 (Suppl. 1): 284 (Abstract).
  • Medrano, J.F. and Aguilar-Cordova, E. (1990). Genotyping of bovine k-casein loci following DNA sequence amplification. Biotechnology 8: 144-146.
  • Nei, M. (1978). Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89: 583-590.
  • Olerup, O. and Zetterquist, H. (1992). HLA-DR typing by PCR amplification with sequence-specific primers (PCR-SSP) in 2 hours: An alternative to serological DR typing in clinical practice including donor-recipients matching in cadaveric transplantation. Tissue Antigens 39: 225-235.
  • Rohlf, F.J. (1992). Numerical Taxonomy and Multivariate Analysis System Version 1.70 (NTSYS-PC). Exeter Software, New York.
  • Ron, M., Yofee, O., Ezra, E., Medrano, J.F. and Weller, J.I. (1994). Determination of effects of milk protein genotype on production of Israeli Holstein. J. Dairy Sci. 77: 1106-1113.
  • Schlee, P., Graml, R., Rottmann, O. and Pirchner, F. (1994a). Influence of growth hormone genotypes on breeding values of Simmental bulls. J. Anim. Breed. Genet. 111: 253-256.
  • Schlee, P., Graml, R., Schallenberger, E., Schams, D., Rottmann, O., Olbrich-Bludau, A. and Pirchner, F. (1994b). Growth hormone and insulin-like growth factor I concentrations in bulls of various growth hormone genotypes. Theor. Appl. Genet. 88: 497-500.
  • Van Eenennaam, A. and Medrano, J.F. (1991). Milk protein polymorphisms in California dairy cattle. J. Dairy Sci. 74: 1730-1742.

Publication Dates

  • Publication in this collection
    17 Feb 2000
  • Date of issue
    Dec 1999

History

  • Received
    25 July 1998
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