Advanced search
Publication Cover
Italian Journal of Animal Science Volume 18, 2019 - Issue 1
Submit an article Journal homepage
2,457
Views
15
CrossRef citations to date
0
Altmetric
Papers

Gene expression profile analysis of residual feed intake for Isfahan native chickens using RNA-SEQ data

Hamid Reza IzadniaAnimal Science Improvement Research Department, Agricultural and Natural Resources Research and Education Center, Safiabad AREEO, Dezful, Iran; View further author information
,
Mojtaba TahmoorespurFaculty of Agriculture, Department of Animal Science, Ferdowsi University of Mashhad, Mashhad, Iran; Correspondence[email protected]
View further author information
,
Mohammad Reza BakhtiarizadehDepartment of Animal and Poultry Science, College of Aburaihan, University of Tehran, Tehran, Iran; View further author information
,
Mohammadreza NassiriFaculty of Agriculture, Department of Animal Science, Ferdowsi University of Mashhad, Mashhad, Iran; View further author information
&
Saeid EsmaeilkhanienResearch Institute of Animal Science, Tehran, IranView further author information
Pages 246-260 | Received 14 Apr 2018, Accepted 14 Jul 2018, Published online: 11 Sep 2018

References

  • Adam Vizi V, Chinopoulos C. 2006. Bioenergetics and the formation of mitochondrial reactive oxygen species. Trends Pharmacol Sci. 27:639–645.
  • Aggrey SE, Karnuah AB, Sebastian B, Anthony NB. 2010. Genetic properties of feed efficiency parameters in meat-type chickens. Genet Sel Evol. 42:25.
  • Alnahhas N, Berri C, Boulay M, Baeza E, Jégo Y, Baumard Y, Chabault M, Bihan duval L. 2014. Selecting broiler chickens for ultimate pH of breast muscle: analysis of divergent selection experiment and phenotypic consequences on meat quality, growth, and body composition traits. J Anim Sci. 92:3816–3824.
  • Andrews S. 2010. FastQC: a quality control tool for high throughput sequence data. http://www.bioinformatics.babraham.ac.uk/projects/fastqc/ http://www.bioinformatics.babraham.ac.uk/projects/
  • Atchley WR, Anderson D. 1978. Ratios and the statistical analysis of biological data. Syst Zool. 27:71–78.
  • Bakhtiarizadeh MR, Hosseinpour B, Arefnezhad B, Shamabadi N, Salami SA. 2016. In silico prediction of long intergenic non-coding RNAs in sheep. Genome. 59:263–275.
  • Barea R, Dubois S, Gilbert H, Sellier P, Van milgen J, Noblet J. 2010. Energy utilization in pigs selected for high and low residual feed intake. J Anim Sci. 88:2062–2072.
  • Blancquaert D, Storozhenko S, Loizeau K, De Steur H, De Brouwer V, Viaene J, Ravanel S, Rébeillé F, Lambert W, Van Der Straeten D. 2010. Folates and folic acid: from fundamental research toward sustainable health. Crit Rev Plant Sci. 29:14–35.
  • Bolger AM, Lohse M, Usadel B. 2014. Trimmomatic: a flexible trimmer for Illumina sequence data. Bioinformatics. 30:2114–2120.
  • Boschetti E, Bordoni A, Meluzzi A, Castellini C, Dal-Bosco A, Sirri F. 2016. Fatty acid composition of chicken breast meat is dependent on genotype-related variation of FADS1 and FADS2 gene expression and desaturating activity. Animal. 10:700–708.
  • Bottje W, Carstens G. 2009. Association of mitochondrial function and feed efficiency in poultry and livestock species. J Anim Sci. 87:E48–e63.
  • Cartwright AL, Leatherwood JM, Eisen EJ. 1980. Thyroid hormones and efficiency of energy utilization in mice selected for body weight. J Nutr. 110:1262–1273.
  • Crespo N, Esteve-Garcia E. 2001. Dietary fatty acid profile modifies abdominal fat deposition in broiler chickens. Poult Sci. 80:71–78.
  • Cushman JC, Bohnert HJ. 2000. Genomic approaches to plant stress tolerance. Curr Opin Plant Biol. 3:117–124.
  • Claire D'Andre H, Paul W, Shen X, Jia X, Zhang R, Sun L, Zhang X. 2013. Identification and characterization of genes that control fat deposition in chickens. J Anim Sci Biotechnol. 4:43.
  • Davis RV, Lamont SJ, Rothschild MF, Persia ME, Ashwell CM, Schmidt CJ. 2015. Transcriptome analysis of post-hatch breast muscle in legacy and modern broiler chickens reveals enrichment of several regulators of myogenic growth. PloS One. 10:e0122525.
  • De-Koning D, Haley C, Windsor D, Hocking P, Griffin H, Morris A, Vincent J, Burt D. 2004. Segregation of QTL for production traits in commercial meat-type chickens. Genet Res. 83:211–220.
  • De-Koning D, Windsor D, Hocking P, Burt D, Law A, Haley C, Morris A, Vincent J, Griffin H. 2003. Quantitative trait locus detection in commercial broiler lines using candidate regions. J Anim Sci. 81:1158–1165.
  • Dennis G, Sherman BT, Hosack DA, Yang J, Gao W, Lane HC, Lempicki RA. 2003. DAVID: database for annotation, visualization, and integrated discovery. Genome Biol. 4:R60.
  • Dibner J, Buttin P. 2002. Use of organic acids as a model to study the impact of gut microflora on nutrition and metabolism. J Appl Poult Res. 11:453–463.
  • Druzhyna NM, Wilson GL, LeDoux SP. 2008. Mitochondrial DNA repair in aging and disease. Mech Ageing Dev. 129:383–390.
  • Firman JD, Leigh H, Kamyab A. 2010. Comparison of soybean oil with an animal/vegetable blend at four energy levels in broiler rations from hatch to market. Int J Poult Sci. 9:1027–1030.
  • Gandomani VT, Mahdavi A, Rahmani H, Riasi A, Jahanian E. 2014. Effects of different levels of clove bud (Syzygium aromaticum) on performance, intestinal microbial colonization, jejunal morphology, and immunocompetence of laying hens fed different n-6 to n-3 ratios. Lives Sci. 167:236–248.
  • Glaser C, Heinrich J, Koletzko B. 2010. Role of FADS1 and FADS2 polymorphisms in polyunsaturated fatty acid metabolism. Metab Clin Exp. 59:993–999.
  • Gorgas K, Teigler A, Komljenovic D, Just WW. 2006. The ether lipid-deficient mouse: tracking down plasmalogen functions. Biochim Biophys Acta. 1763:1511–1526.
  • Grubbs JK, Fritchen A, Huff-Lonergan E, Dekkers JC, Gabler NK, Lonergan SM. 2013a. Divergent genetic selection for residual feed intake impacts mitochondria reactive oxygen species production in pigs. J Anim Sci. 91:2133–2140.
  • Grubbs JK, Fritchen AN, Huff-Lonergan E, Gabler NK, Lonergan SM. 2013b. Selection for residual feed intake alters the mitochondria protein profile in pigs. J Proteomics. 80:334–345.
  • Hamill RM, Aslan O, Mullen AM, O'Doherty JV, McBryan J, Morris DG, Sweeney T. 2013. Transcriptome analysis of porcine M. semimembranosus divergent in intramuscular fat as a consequence of dietary protein restriction. BMC Genomics. 14:453.
  • Hansen C, Yi N, Zhang YM, Xu S, Gavora J, Cheng HH. 2005. Identification of QTL for production traits in chickens. Anim Biotechnol. 16:67–79.
  • Hardman J, Limbird L, Gilman A. 2001. The Pharmacological Basis of Therapeutics. New York (NY): The McGraw-Hill Companies, Inc.
  • Hayes MR, Leichner TM, Zhao S, Lee GS, Chowansky A, Zimmer D, De-Jonghe BC, Kanoski SE, Grill HJ, Bence KK. 2011. Intracellular signals mediating the food intake-suppressive effects of hindbrain glucagon-like peptide-1 receptor activation. Cell Metab. 13:320–330.
  • He J, Cao M, Gao F, Wang J, Hayashi K. 2006. Dietary thyroid hormone improves growth and muscle protein accumulation of black-boned chickens. Br Poult Sci. 47:567–571.
  • Herd R, Arthur P. 2009. Physiological basis for residual feed intake. J Anim Sci. 87:E64–E71.
  • Herd R, Bishop S. 2000. Genetic variation in residual feed intake and its association with other production traits in British Hereford cattle. Livest Prod Sci. 63:111–119.
  • Hoque M, Katoh K, Suzuki K. 2009. Genetic associations of residual feed intake with serum insulin-like growth factor-I and leptin concentrations, meat quality, and carcass cross sectional fat area ratios in Duroc pigs. J Anim Sci. 87:3069–3075.
  • Hoque M, Suzuki K, Kadowaki H, Shibata T, Oikawa T. 2007. Genetic parameters for feed efficiency traits and their relationships with growth and carcass traits in Duroc pigs. J Anim Breed Genet. 124:108–116.
  • Hu ZL, Park CA, Wu XL, Reecy JM. 2013. Animal QTLdb: an improved database tool for livestock animal QTL/association data dissemination in the post-genome era. Nucleic Acids Res. 41:D871–D879.
  • Hua T, Wu D, Ding W, Wang J, Shaw N, Liu ZJ. 2012. Studies of human 2,4-dienoyl CoA reductase shed new light on peroxisomal β-oxidation of unsaturated fatty acids. J Biol Chem. 287:28956–28965.
  • Iqbal M, Pumford N, Tang Z, Lassiter K, Ojano-Dirain C, Wing T, Cooper M, Bottje W. 2005. Compromised liver mitochondrial function and complex activity in low feed efficient broilers are associated with higher oxidative stress and differential protein expression. Poult Sci. 84:933–941.
  • Iqbal M, Pumford N, Tang Z, Lassiter K, Wing T, Cooper M, Bottje W. 2004. Low feed efficient broilers within a single genetic line exhibit higher oxidative stress and protein expression in breast muscle with lower mitochondrial complex activity. Poult Sci. 83:474–484.
  • Ježek P, Hlavatá L. 2005. Mitochondria in homeostasis of reactive oxygen species in cell, tissues, and organism. Int J Biochem Cell Biol. 37:2478–2503.
  • Jin S, Moujahid EME, Duan Z, Zheng J, Qu L, Xu G, Yang N, Chen S. 2016. Association of AMPK subunit gene polymorphisms with growth, feed intake, and feed efficiency in meat-type chickens. Poult Sci. 95:1492–1497.
  • Johnson D, Ferrell C, Jenkins T. 2003. The history of energetic efficiency research: where have we been and where are we going. J Anim Sci. 81:E27–E38.
  • Karisa B, Moore S, Plastow G. 2014. Analysis of biological networks and biological pathways associated with residual feed intake in beef cattle. Anim Sci J. 85:374–387.
  • Kim D, Langmead B, Salzberg SL. 2015. HISAT: a fast spliced aligner with low memory requirements. Nat Methods. 12:357–360.
  • Krueger W, Carstens G, Lancaster P, Slay L, Miller J, Forbes T. 2008. Relationships between residual feed intake and apparent nutrient digestibility in growing calves. J Anim Sci. 86:25.
  • Kutner M, Nachtsheim C, Neter J. 2004. Applied linear regression methods. Chicago (IL): McGraw.
  • Latshaw J. 2008. Daily energy intake of broiler chickens is altered by proximate nutrient content and form of the diet. Poult Sci. 87:89–95.
  • Lattka E, Illig T, Koletzko B, Heinrich J. 2010. Genetic variants of the FADS1 FADS2 gene cluster as related to essential fatty acid metabolism. Curr Opin Lipidol. 21:64–69.
  • Le Bihan-Duval E, Berri C, Baeza E, Millet N, Beaumont C. 2001. Estimation of the genetic parameters of meat characteristics and of their genetic correlations with growth and body composition in an experimental broiler line. Poult Sci. 80:839–843.
  • Liu W, Li D, Liu J, Chen S, Qu L, Zheng J, Xu G, Yang N. 2011. A genome-wide SNP scan reveals novel loci for egg production and quality traits in white leghorn and brown-egg dwarf layers. PLoS One. 6:e28600.
  • Lu H, Huang D, Ransohoff RM, Zhou L. 2011. Acute skeletal muscle injury: CCL2 expression by both monocytes and injured muscle is required for repair. FASEB J. 25:3344–3355.
  • Lu L, Ji C, Luo X, Liu B, Yu S. 2006. The effect of supplemental manganese in broiler diets on abdominal fat deposition and meat quality. Anim Feed Sci Technol. 129:49–59.
  • Lückstädt C, Mellor S. 2011. The use of organic acids in animal nutrition, with special focus on dietary potassium diformate under European and Austral-Asian conditions. Recent Adv Anim Nutr. 18:123–130.
  • Luiting P, Schrama J, Van-der Hel W, Urff E. 1991. Metabolic differences between White Leghorns selected for high and low residual food consumption. Br Poult Sci. 32:763–782.
  • Luiting P, Urff E. 1991. Optimization of a model to estimate residual feed consumption in the laying hen. Livest Prod Sci. 27:321–338.
  • Malone S, Chen ZH, Bahrami AR, Walker RP, Gray JE, Leegood RC. 2007. Phospho enol pyruvate carboxykinase in arabidopsis: changes in gene expression, protein and activity during vegetative and reproductive development. Plant Cell Physiol. 48:441–450.
  • Mashaly MM, Hendricks GL, Kalama MA, Gehad AE, Abbas AO, Patterson PH. 2004. Effect of heat stress on production parameters and immune responses of commercial laying hens. Poult Sci. 83:889–894.
  • McKay D, Baird A. 1999. Cytokine regulation of epithelial permeability and ion transport. Gut. 44:283–289.
  • Mignon-Grasteau S, Rideau N, Gabriel I, Chantry-Darmon C, Boscher MY, Sellier N, Chabault M, Bihan-Duval E, Narcy A. 2015. Detection of QTL controlling feed efficiency and excretion in chickens fed a wheat-based diet. Genet Sel Evol. 47:74.
  • Mroz Z, Koopmans SJ, Bannink A, Partanen K, Krasucki W, Øverland M, Radcliffe S. 2006. Carboxylic acids as bioregulators and gut growth promoters in nonruminants. Biol Grow Anim. 4:81–133.
  • Nadeau OW, Lane LA, Xu D, Sage J, Priddy TS, Artigues A, Villar MT, Yang Q, Robinson CV, Zhang Y, et al. 2012. Structure and location of the regulatory β subunits in the (αβγδ)4 phosphorylase kinase complex. J Biol Chem. 287:36651–36661.
  • Nafikov RA, Beitz DC. 2007. Carbohydrate and lipid metabolism in farm animals. J Nutr. 137:702–705.
  • Neumeier M, Weigert J, Schäffler A, Weiss TS, Schmidl C, Büttner R, Bollheimer C, Aslanidis C, Schölmerich J, Buechler C. 2006. Aldehyde oxidase 1 is highly abundant in hepatic steatosis and is downregulated by adiponectin and fenofibric acid in hepatocytes in vitro. Biochem Biophys Res Commun. 350:731–735.
  • Ojano-Dirain C, Pumford N, Iqbal M, Wing T, Cooper M, Bottje W. 2005. Biochemical evaluation of mitochondrial respiratory chain in duodenum of low and high feed efficient broilers. Poult Sci. 84:1926–1934.
  • Ojano-Dirain CP, Iqbal M, Cawthon D, Swonger S, Wing T, Cooper M, Bottje W. 2004a. Determination of mitochondrial function and site-specific defects in electron transport in duodenal mitochondria in broilers with low and high feed efficiency. Poult Sci. 83:1394–1403.
  • Ojano-Dirain CP, Iqbal M, Cawthon D, Swonger S, Wing T, Cooper M, Bottje W. 2004b. Membrane potential and hydrogen peroxide production in duodenal mitochondria in broilers with low and high feed efficiency. Poult Sci. 83:1394.
  • Ojano-Dirain CP et al. 2004a Andrews, S. FastQC: a quality control tool for high throughput sequence data. http://www.bioinformatics.babraham.ac.uk/projects/fastqc/ http://www.bioinformatics.babraham.ac.uk/projects/
  • Ozsolak F, Milos PM. 2011. RNA sequencing: advances, challenges and opportunities. Nat Rev Genet. 12:87–98.
  • Partanen KH, Mroz Z. 1999. Organic acids for performance enhancement in pig diets. Nutr Res Rev. 12:117–145.
  • Pesti G. 1991. Response surface approach to studying the protein and energy requirements of laying hens. Poult Sci. 70:103–114.
  • Pirkhezranian Z, Nassiri M, Tahmorespur M, Bassami M, Haghparast A. 2015. Genetic diversity and phylogenetic analysis of light chain of immunoglobulin Y in Kho-rasan native chickens. Genet 3rd Millennium. 13:3732–3737.
  • Ranjbar A, Ghahremani MH, Sharifzadeh M, Golestani A, Ghazi-Khansari M, Baeeri M, Abdollahi M. 2010. Protection by pentoxifylline of malathion-induced toxic stress and mitochondrial damage in rat brain. Hum Exp Toxicol. 29:851–864.
  • Reeve AK, Lightowlers R. 2012. An introduction to mitochondria. Mitochondrial Dysfunction in Neurodegenerative Disorders. Springer, London: Springer.
  • Rekaya R, Sapp R, Wing T, Aggrey S. 2013. Genetic evaluation for growth, body composition, feed efficiency, and leg soundness. Poult Sci. 92:923–929.
  • Sahin K, Onderci M, Sahin N, Gursu M, Kucuk O. 2003. Dietary vitamin C and folic acid supplementation ameliorates the detrimental effects of heat stress in Japanese quail. J Nutr. 133:1882–1886.
  • Salehinasab M, Latifi M, Zerehdaran S, Alijani S. 2015. Genetic properties of some economic traits in Isfahan native fowl using Bayesian and REML methods. Poult Sci J. 3:143–149.
  • Suthama N, Hayashi K, Toyomizu M, Tomita Y. 1989. Effect of dietary thyroxine on growth and muscle protein metabolism in broiler chickens. Poult Sci. 68:1396–1401.
  • Taguchi H, Armarego WL. 1998. Glyceryl-ether monooxygenase [EC 1.14.16.5]. A microsomal enzyme of ether lipid metabolism. Med Res Rev. 18:43–89.
  • Terao M, Kurosaki M, Barzago MM, Varasano E, Boldetti A, Bastone A, Fratelli M, Garattini E. 2006. Avian and canine aldehyde oxidases novel insights into the biology and evolution of molybdo-flavoenzymes. J Biol Chem. 281:19748–19761.
  • Tizioto PC, Coutinho LL, Decker JE, Schnabel RD, Rosa KO, Oliveira PSN, Souza MM, Mourão GB, Tullio RR, Chaves AS, et al. 2015. Global liver gene expression differences in Nelore steers with divergent residual feed intake phenotypes. BMC Genomics. 16:242.
  • Tran T-S, Narcy A, Carré B, Gabriel I, Rideau N, Gilbert H, Demeure O, Bed’Hom B, Chantry-Darmon C, Boscher M-Y, et al. 2014. Detection of QTL controlling digestive efficiency and anatomy of the digestive tract in chicken fed a wheat-based diet. Genet Sel Evol. 46:25.
  • Trapnell C, Roberts A, Goff L, Pertea G, Kim D, Kelley DR, Pimentel H, Salzberg SL, Rinn JL, Pachter L. 2012. Differential gene and transcript expression analysis of RNA-seq experiments with TopHat and Cufflinks. Nat Protoc. 7:562
  • Tzeng RY, BECKER WA. 1981. Growth patterns of body and abdominal fat weights in male broiler chickens. Poult Sci. 60:1101–1106.
  • Valentino MA, Lin JE, Snook AE, Li P, Kim GW, Marszalowicz G, Magee MS, Hyslop T, Schulz S, Waldman SA. 2011. A uroguanylin-GUCY2C endocrine axis regulates feeding in mice. J. Clin. Invest. 121:3578–3588.
  • Wang L, Xu M, Qin J, Lin SC, Lee HJ, Tsai SY, Tsai MJ. 2016. MPC1, a key gene in cancer metabolism, is regulated by COUPTFII in human prostate cancer. Oncotarget. 7:14673.
  • Wang Z, Gerstein M, Snyder M. 2009. RNA-Seq: a revolutionary tool for transcriptomics. Nat Rev Genet. 10:57–63.
  • Xiao R, Power R, Mallonee D, Crowdus C, Brennan K, Ao T, Pierce J, Dawson K. 2011. A comparative transcriptomic study of vitamin E and an algae-based antioxidant as antioxidative agents: investigation of replacing vitamin E with the algae-based antioxidant in broiler diets. Poult Sci. 90:136–146.
  • Xu Z, Ji C, Zhang Y, Zhang Z, Nie Q, Xu J, Zhang D, Zhang X. 2016. Combination analysis of genome-wide association and transcriptome sequencing of residual feed intake in quality chickens. BMC Genomics. 17:594.
  • Yi G, Yuan J, Bi H, Yan W, Yang N, Qu L. 2015. In-depth duodenal transcriptome survey in chickens with divergent feed efficiency using RNA-Seq. PLoS One. 10:e0136765.
  • Yousefi Zonuz A, Alijani S, Mohammadi H, Rafat A, Daghigh-Kia H. 2013. Estimation of genetic parameters for productive and reproductive traits in Esfahan native chickens. J Livest Sci Technol. 1:34–38.
  • Zhou N. 2015. Using RNA-seq to characterize the biological basis of variation in feed efficiency in broiler chickens. University of Delaware.
  • Zhuo Z, Lamont SJ, Lee WR, Abasht B. 2015. RNA-Seq analysis of abdominal fat reveals differences between modern commercial broiler chickens with high and low feed efficiencies. PLoS One. 10:e0135810.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.