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Biological Rhythm Research Volume 50, 2019 - Issue 6
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Original Articles

Identification of single nucleotide variations in the Toll-like receptor 9 (TLR9) gene and its association to mastitis susceptibility in dairy cattle

Sharanabasav BadamiDepartment of Veterinary Biochemistry, Rajiv Gandhi Institute of Veterinary Education and Research, Puducherry, Kurumbapet, IndiaCorrespondence[email protected]
,
Jacob ThanislassDepartment of Veterinary Biochemistry, Rajiv Gandhi Institute of Veterinary Education and Research, Puducherry, Kurumbapet, India
,
Singaram BarathirajaContract Faculty, Department of Veterinary Biochemistry, Rajiv Gandhi Institute of Veterinary Education and Research, Puducherry, Kurumbapet, India
,
Tamilmani AnithaDepartment of Veterinary Biochemistry, Rajiv Gandhi Institute of Veterinary Education and Research, Puducherry, Kurumbapet, India
,
Indu UpadhyayaDepartment of Poultry Science, University of Arkansas, Fayetteville, AR, USA
&
Hirak Kumar MukhopadhyayDepartment of Veterinary Microbiology, Rajiv Gandhi Institute of Veterinary Education and Research, Puducherry, Kurumbapet, India
Pages 887-896 | Received 26 Jun 2018, Accepted 15 Jul 2018, Published online: 06 Aug 2018

References

  • Cao SZ, Li HB, Wang AH, Zhao XX, Du LX. 2005. Construction of mastitis resistant cDNA library in dairy cows using suppression subtractive hybridization. Acta Veterinaria Et Zootechnica Sinica. 36(6):526–530.
  • Cargill JE, Womack EJ. 2007. Detection of polymorphisms in bovine toll-like receptors 3, 7, 8, and 9. Genomics. 89:745–755.
  • Chamary JV, Hurst LD. 2005. Evidence for selection on synonymous mutations affecting stability of mRNA secondary structure in mammals. Genome Biol. 6:75.
  • De Mesquita AQ, Rezende CSE, De Mesquita AJ, Jardim EA, Kipnis AP. 2012. Association of TLR4 polymorphisms with subclinical mastitis in Brazilian Holsteins. Braz J Microbio. 43:692–697.
  • Gao SX, Xu SZ, Li J, Gao X, Ren HY, Chen JB, Ma Y. 2006. Analysis of polymorphisms of BoLA-DQA and DRB3 exon2 and the relationship between the gene and mastitis in dairy cattle. Acta Veterinaria Zootechnica Sinica. 37(4):317–320.
  • Gasser RB, Hu M, Chilton NB, Campbell BE, Jex AR, Otranto D, Cafarchia C, Beveridge I, Zhu XQ. 2007. Single-strand conformation polymorphism (SSCP) for the analysis of genetic variation. Nat. 1:3121–3128.
  • Grohn YT, Wilson DJ, Gonzalez RN, Hertl JA, Schulte H, Bennett G, Schukken YH. 2004. Effect of pathogen-specific clinical mastitis on milk yield in dairy cows. J Dairy Sci. 87:3358–3374.
  • Gross E, Arnold N, Goette J, Schwart-Boeger U, Kiechle M. 1999. A comparison of BRCA1 mutation analysis by direct sequencing, SSCP and DHPLC. Hum Genet. 105:72–78.
  • Hacker H, Mischak H, Miethke T, Liptay S, Schmid R, Sparwasser T, Heeg K, Lipford GB, Wagner H. 1998. CpG-DNA-specific activation of antigenpresenting cells requires stress kinase activity and is preceded by non-specific endocytosis and endosomal maturation. EMBO J. 17:6230.
  • Hamzeiy U, Mashhadian NV, Edwards HJ, Goldfarb PS. 2002. Mutation analysis of the human CYP3A4 gene 5ʹ regulatory region: population screening using non-radioactive SSCP. Mutat Res. 500:103–110.
  • Hatai H, Lepelley A, Zeng W, Hayden MS, Ghosh S. 2016. Toll-Like Receptor 11 (TLR11) interacts with flagellin and profilin through disparate mechanisms. PLoS One. 11(2):1–13.
  • Heaton MP, Grosse WM, Kappes SM, Keele JW, Chitko-McKown CG, Cundiff LV, Braun A, Little DP, Laegreid WW. 2001. Estimation of DNA sequence diversity in bovine cytokine genes. Mamm Genome. 12:32–37.
  • Jault C, Pichon L, Chluba J. 2004. Toll-like receptor gene family and TIR-domain adapters in Danio Rerio. Mol Immunol. 40(11):759–771. 23.
  • Latz E, Schoenemeyer A, Visintin A, Fitzgerald KA, Monks BG, Knetter CF, D Lien E. 2004. TLR9 signals after translocating from the ER to CpG DNA in the lysosome. Nat Immunol. 5:190.
  • Lazarus R, Klimecki WT, Raby BA, Vercelli D, Palmer LJ, Kwiatkowski DJ, Silverman EK, Martinez F, Weiss ST. 2003. Single-nucleotide polymorphisms in the Toll-like receptor 9 gene (TLR9): frequencies, pairwise linkage disequilibrium, and haplotypes in three U.S. ethnic groups and exploratory case-control disease association studies. Genomics. 81(1):85–91.
  • Leifer CA, Kennedy MN, Mazzoni A, Lee C, Kruhlak MJ, Segal DM. 2004. TLR9 is localized in the endoplasmic reticulum prior to stimulation. J Immunol. 173:1179.
  • Lundberg A 2015. Mastitis in dairy cows: genotypes, spread, and infection outcome of three important udder pathogens, Doctoral Thesis, Swedish University of Agricultural Sciences Uppsala. pp-11.
  • Nackley AG, Shabalina SA, Tchivileva IE, Satterfield K, Korchynskyi O. 2006. Human catechol-O-methyltransferase haplotypes modulate protein expression by altering mRNA secondary structure. Science. 314:1930–1933.
  • Nonaka M, Kimura A. 2006. Genomic view of the evolution of the complement system. Immunogenetics. 58(9):701–713.
  • Nyman AK, Ekman T, Emanuelson U, Gustafsson AH, Holtenius K, Waller KP, Sandgren CH. 2007. Risk factors associated with the incidence of veterinary- treated clinical mastitis in Swedish dairy herds with a high milk yield and a low prevalence of subclinical mastitis. J Prevet Med. 78(2):142–160.
  • Oliveira CSF, Hogeveen H, Botelho AM, Maiad PV, Coelhob SG, Haddada JPA. 2015. Cow-specific risk factors for clinical mastitis in Brazilian dairy cattle. Prev Vet Med. 121:297–305.
  • Orita M, Suzuki Y, Sekiya T, Hayashi K. 1989. Rapid and sensitive detection of point mutations and DNA polymorphisms using the polymerase reaction. Genomics. 5:874–879.
  • Pandey S, Kawai T, Akira S. 2015. Microbial sensing by Toll-like receptors and intracellular nucleic acid sensors. Cold Spring Harb Perspect Biol. 7(1):a016246.
  • Panigrahi M, Sharma A, Bhushan B. 2014. Molecular characterization and expression profile of partial TLR4 gene in association to mastitis in crossbred cattle. Anim Biotechnol. 25(3):188–199.
  • Pant SD, Schenkel FS, Leyva-Baca I, Harma BS, Karrow NA. 2008. Identification of polymorphisms in bovine TLR2 and CARD15, associations between CARD15 polymorphisms and milk somatic cell score in Canadian Holsteins, and functional relevance of SNP c.3020A>T. Dev Biol (Basel). 132:247–253.
  • Peeler EJ, Green MJ, Fitzpatrick JL, Morgan KL, Green LE. 2000. Risk factors associated with clinical mastitis in low somatic cell count British dairy herds. J.Dairy Sci. 83(11):2464–2472.
  • Sam-Agudu NA, Greene JA, Opoka RO, Kazura JW, Boivin MJ, Zimmerman PA, Riedo MA, Bergemann TL, Schimmenti L, John CC. 2010. TLR9 polymorphisms are associated with altered IFN – gamma levels in children with cerebral malaria. Am J Trop Med Hyg. 82(4):548–555.
  • Sambrook J, Russell DW. 2001. Rapid isolation of mammalian DNA. Molecular Cloning; A Laboratory Manual, IIIed, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY. (Protocol 6). p.6.28–6.30
  • Sauna ZE, Kimchi-Sarfaty C. 2011. Understanding the contribution of synonymous mutations to human disease. Nat Rev Genet. 12:683–691.
  • Schreiner DA, Ruegg PL. 2003. Relationship between udder and leg hygiene scores and subclinical mastitis. J.Dairy Sci. 86(11):3460–3465.
  • Sharma BS, Mount J, Karrow NA. 2008. Functional characterization of a single nucleotide polymorphism in the 5ʹUTR region of the bovine toll-like receptor 4 gene. Dev Biol (Basel). 132:331–336.
  • Shieffield VC, Berk JC, Kwitek AE, Sandstrom DW, Stone EM. 1993. The sensitivity of single strand comformation polymorphism analysis for the detection of single base substitution. Genomics. 16:325–333.
  • Steeneveld W, Hogeveen H, Barkema HW, Van Den Broek J, Huirne RBM. 2008. The influence of cow factors on the incidence of clinical mastitis in dairy cows. J.Dairy Sci. 91(4):1391–1402.
  • Swiderek PW, Bhide RM, Gruszczy SKA, Soltis K, Witkowska D, Mikula I. 2006. Toll-like receptor gene polymorphism and its relationship with somatic cell concentration and natural bacterial infections of the mammary gland in sheep. Folia Microbiol. 51:647–652.
  • Waller KP, Bengtsson B, Lindberg A, Nyman A, Ericsson UH. 2009. Incidence of mastitis and bacterial findings at clinical mastitis in swedish primiparous cows-influence of breed and stage of lactation. Vet Microbiol. 134:89–94.
  • Wang X, Xu S, Gao X, Li J, Ren R, Luoren Z. 2008. Cloning and SNP screening of the TLR4 gene and the association between its polymorphism and somatic cell score in dairy cattle. S Afr J Anim Sci. 38(2):101–109.
  • Weckx S, Del-Favero J, Rademakers R, Claes L, Cruts M, De Jonghe P, Van Broeckhoven C, De Rijk P. 2005. SNP, a novel computational tool for sequence variation discovery. Genome Res. 15:436–442.
  • White SN, Taylor KH, Abbey CA, Gill CA, Womack JE. 2003. Haplotype variation in bovine Toll-like receptor 4 and computational prediction of a positively selected ligand-binding domain. Proc Natl Acad Sci. 100:10364–10369.
  • Xu CJ, Zhang WH, Pan HF, Li XP, Xu JH, Ye DQ. 2009. Association study of a single nucleotide polymorphism in the exon 2 region of Toll like receptor 9 (TLR 2) gene with susceptibility to systemic lupus erythematosus among Chinese. Mol Biol Rep. 36:2245–2248.
  • Yao J, Aggrey SE, Zadwarthy D, Hayes JF, Kuhnlein U. 1996. Sequence between bovine growth hormone genes characterized by single strand conformational polymorphism (SSCP) analysis and their association with milk production traits in Holstein. Genetics. 144:1809–1816.
  • Yoshida T, Furuta H, Kondo Y, Mukoyama H. 2012. Association of BoLA-DRB3 alleles with mastitis resistance and susceptibility in Japanese Holstein cows. Anim Sci J. 83:359–366.
  • Youngerman SM, Saxton AM, Oliver SP, Pighetti GM. 2004. Association of CXCR2 polymorphisms with subclinical and clinical mastitis in dairy cattle. J Dairy Sci. 87:2442–2448.
  • Zhang Z, Li XP, Yang F, Luo JY, Wang XR, Liu LH, Li HS. 2016. Influences of season, parity, lactation, udder area, milk yield, and clinical symptoms on intramammary infection in dairy cows. J Dairy Sci. 99:6484–6493.

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