Combining single nucleotide polymorphisms and gene expression of LEP, FABP4, STAT5A and DGAT1 genes for improvement of body weight in Holstein calves
Περίληψη
The objective of this study was to investigate the possible association of single nucleotide polymorphisms and gene expression of leptin (LEP), fatty acid binding protein (FABP4), signal transducer and activator of transcription 5A (STAT5A) and diacylglycerol acyltransferase (DGAT1) genes with body weight in Holstein calves. For the RNA extraction process, blood samples from 100 Holstein bull calves were taken. According to farm records, the acquired bull calves were weaned at a body weight of roughly 90 kg, with birth weights ranging from 31 to 38 kg and weaning ages ranging from 60 to 100 days. To account for the non-genetic causes, the dairy calves' body weight was changed to their 205-day body weight. Nucleotide sequence changes in the form of SNPs were found in the LEP, FABP4, STAT5A, and DGAT1 genes in the investigated Holstein calves. The identified SNPs and corrected 205-day body weight showed a significant correlation (P < 0.05). According to ΔCT values, a significant relationship between the mRNA levels of the LEP, FABP4, STAT5A, and DGAT1 genes and body weight was also found (P < 0.05). The effectiveness of the LEP, FABP4, STAT5A, and DGAT1 genes as proxies for growth qualities in Holstein dairy calves is highlighted by this study. Therefore, it was possible to select an animal with a high rate of growth.
Λεπτομέρειες άρθρου
- Πώς να δημιουργήσετε Αναφορές
-
Mostafa, R., Elgamal, R., Khadra, N., Helal, N., Khedr, N., El-Sherbeny, G., Safhi, F., Sakr, S., & Ateya, A. (2024). Combining single nucleotide polymorphisms and gene expression of LEP, FABP4, STAT5A and DGAT1 genes for improvement of body weight in Holstein calves. Περιοδικό της Ελληνικής Κτηνιατρικής Εταιρείας, 75(3), 7815–7824. https://doi.org/10.12681/jhvms.35593
- Τεύχος
- Τόμ. 75 Αρ. 3 (2024)
- Ενότητα
- Άρθρα
Αυτή η εργασία είναι αδειοδοτημένη υπό το CC Αναφορά Δημιουργού – Μη Εμπορική Χρήση 4.0.
Οι συγγραφείς των άρθρων που δημοσιεύονται στο περιοδικό διατηρούν τα δικαιώματα πνευματικής ιδιοκτησίας επί των άρθρων τους, δίνοντας στο περιοδικό το δικαίωμα της πρώτης δημοσίευσης.
Άρθρα που δημοσιεύονται στο περιοδικό διατίθενται με άδεια Creative Commons 4.0 Non Commercial και σύμφωνα με την άδεια μπορούν να χρησιμοποιούνται ελεύθερα, με αναφορά στο/στη συγγραφέα και στην πρώτη δημοσίευση για μη κερδοσκοπικούς σκοπούς.
Οι συγγραφείς μπορούν να καταθέσουν το άρθρο σε ιδρυματικό ή άλλο αποθετήριο ή/και να το δημοσιεύσουν σε άλλη έκδοση, με υποχρεωτική την αναφορά πρώτης δημοσίευσης στο J Hellenic Vet Med Soc
Οι συγγραφείς ενθαρρύνονται να καταθέσουν σε αποθετήριο ή να δημοσιεύσουν την εργασία τους στο διαδίκτυο πριν ή κατά τη διαδικασία υποβολής και αξιολόγησής της.
Λήψεις
Τα δεδομένα λήψης δεν είναι ακόμη διαθέσιμα.
Αναφορές
Altschul SF, Gish W, Miller W, Myers EW, Lipman DJ (1990) Basic local align
ment search tool. J mol biol 215: 403-410.
Ateya AI, El-Seady YY, Atwa SM, Merghani BH, Sayed NA (2016) Novel sin
gle nucleotide polymorphisms in lactoferrin gene and their association with
mastitis susceptibility in Holstein cattle. Genetika 48: 199-210.
Avondo M, Di Trana A, Valenti B, Criscione A, Bordonaro S, De Angelis A,
Giorgio D, Di Gregorio P (2019) Leptin gene polymorphism in goats fed
with diet at different energy level: Effects on feed intake, milk traits, milk
fatty acids composition, and metabolic state. Animals 9: 424.
Azhar A, Akmal M, Hambal M, Sabri M, Rosa TS (2020) Effects of polymor
phism of myostatin and fatty acid-binding protein 4 genes on the chemical
composition of meat in cull female Aceh cattle. Vet World 13: 1334.
Bahrami A, Behzadi S, Miraei-Ashtiani SR, Roh SG, Katoh K (2013) Genetic
polymorphisms and protein structures in growth hormone, growth hor
mone receptor, ghrelin, insulin-like growth factor 1 and leptin in Mehraban
sheep. Gene 527: 397-404.
Boesenberg-Smith KA, Pessarakli MM, Wolk DM (2012) Assessment of DNA
yield and purity: an overlooked detail of PCR troubleshooting. Clinl Mi
crobiolNewsl 34: 1-6.
Boom R, Sol CJ, Salimans MM, Jansen CL, Wertheim-van Dillen PM, Van
der Noordaa J (1990) Rapid and simple method for purification of nucleic
acids. J Clin Microbiol 28: 495-503.
Brym P, Kamiñski Sa, Rusc A (2004) New SSCP polymorphism within bovine
STAT5A gene and its associations with milk performance traits in Black
and-White and Jersey cattle. J Appl Genet 45: 445-452.
Buitenhuis M, Coffer PJ, Koenderman L (2004) Signal transducer and activator
of transcription 5 (STAT5). The int J biochem cell biol 36: 2120-2124.
Elis S, Coyral-Castel S, Freret S, Cognié J, Desmarchais A, Fatet A, Rame C,
Briant E, Maillard V, Dupont J (2013) Expression of adipokine and lipid
metabolism genes in adipose tissue of dairy cows differing in a female fer
tility quantitative trait locus. J Dairy Sci96(12):7591-602.
Fink T, Lopdell TJ, Tiplady K, Handley R, Johnson TJJ, Spelman RJ, Davis SR,
Snell RG, Littlejohn MD (2020) A new mechanism for a familiar mutation - bovine DGAT1 K232A modulates gene expression through multi-junc
tion exon splice enhancement. BMC Genomics 21(1):591.
Forhead AJ, Fowden AL (2009) The hungry fetus? Role of leptin as a nutritional
signal before birth. The J physiol 587: 1145-1152.
Gao YY, Cheng G, Cheng ZX, Bao C, Yamada T, Cao GF, Bao SQ, Schreurs
NM, Zan LS, Tong B (2022) Association of variants in FABP4, FASN,
SCD, SREBP1 and TCAP genes with intramuscular fat, carcass traits and
body size in Chinese Qinchuan cattle. Meat Sci 192: 108882.
Ghanem N, Zayed M, Mohamed I, Mohammady M, Shehata MF (2022)
Co-expression of candidate genes regulating growth performance and car
cass traits of Barki lambs in Egypt. Trop Anim Health and Prod 54: 260.
GOULD, K (2015) Calculating calf-adjusted weaning weights and herd index
es. Michigan State University Extension - August 31, 2015
Hajjari M, Behmanesh M, Sadeghizadeh M, Zeinoddini M (2013) Up-regula
tion of HOTAIR long non-coding RNA in human gastric adenocarcinoma
tissues. Med oncol 30: 1-4.
Hendam BM, Ghanem HM, Marghani BH, Abou-Ismail UA, Ateya AI (2023).
Gene Expression of Immune, Growth and Lipogenic Markers in Holstein,
Simmental and Brown Swiss Calves. AJVS. 2023; 76(1): 84-95.
Horan B, Mee JF, Rath M, O’Connor P, Dillon P (2004) The effect of strain of
Holstein-Friesian cow and feeding system on reproductive performance in
seasonal-calving milk production systems. Anim Sci 79: 453-467.
Ibrahim S, Al-Sharif M, Younis F, Ateya A, Abdo M, Fericean L (2023) Analy
sis of Potential Genes and Economic Parameters Associated with Growth
and Heat Tolerance in Sheep (Ovis aries). Animals 13: 353.
Kasprzak-Filipek K, Wioletta Sawicka-Zugaj WS, LitwinczukZ, Chabuz W,
Sveistiene R, Bulla J (2018) Assessment of the genetic structure of Cen
tral European cattle breeds based on functional gene polymorphism. Glob
EcolConserv 17: e00525.
Katsanis SH, Katsanis N (2013) Molecular genetic testing and the future of clin
ical genomics. Nat. Rev. Genet 14: 415-426.
Khan MZ, Ma Y, Ma J, Xiao J, Liu Y, Liu S, Khan A, Khan IM, Cao Z (2021)
Association of DGAT1 with cattle, buffalo, goat, and sheep milk and meat
production traits. Front Vet Sci 8: 712470.
Kuenzel WJ, Fraley GS (1995) Neuropeptide Y: its role in the neural regulation
of reproductive function and food intake in avian and mammalian species.
Poult avian biol rev.
Kulig H (2005) Associations between leptin gene polymorphism and some milk
performance traits of cattle. J Anim Feed Sci 14: 235-243.
Kulig H, Kmieć M (2009) Association between leptin gene polymorphisms and
growth traits in Limousin cattle. Russ J genet 45: 738-741.
Kukurba KR, Montgomery SB (2015) RNA Sequencing and Analysis. Cold
Spring Harb Protoc 13: 951-969.
Kuswati K, Furqon A, Septian WA, Susilawati T (2022) Polymorphism of leptin
gene (single nucleotide polymorphisms c. 73T> C) and its association with
body weight and body measurements in Madura cattle. Vet World 15: 775.
Liefers SC, Te Pas MFW, Veerkamp RF, Van Der Lende T (2002) Associations
between leptin gene polymorphisms and production, live weight, energy
balance, feed intake, and fertility in Holstein heifers. J Dairy Sci 85: 1633
Liu HY, Zan LS, Xin YP, Tian WQ (2010) Association of polymorphism in the
bovine leptin gene exon2 with carcass traits in Chinese Qinchuan cattle. J
Appl Anim Res 37: 221-224.
Livak KJ, Schmittgen TD (2001) Analysis of relative gene expression data
using real-time quantitative PCR and the 2− ΔΔCT method. methods 25:
-408.
Mota LFM, Bonafé CM, Alexandre PA, Santana MH, Novais FJ, Toriyama E,
Pires AV, da Luz Silva S, Leme PR, Ferraz JBS (2017) Circulating leptin
and its muscle gene expression in Nellore cattle with divergent feed effi
ciency. J Anim Sci Biotechnol8: 1-5.
Ogorevc J, Kunej T, Razpet A, Dovc P (2009) Database of cattle candidate
genes and genetic markers for milk production and mastitis. Anim Genet
: 832-851.
Oikonomou G, Michailidis G, Kougioumtzis A, Avdi M, Banos G (2011) Effect
of polymorphisms at the STAT5A and FGF2 gene loci on reproduction,
milk yield and lameness of Holstein cows. Res Vet Sci 91: 235-239.
Pfaffl MW (2001) A new mathematical model for relative quantification in re
al-time RT-PCR. Nucleic acids res 29: e45-e45.
Rodriguez-Venegas R, Meza-Herrera CA, Robles-Trillo PA, Angel-Garcia O,
Legarreta- Gonzalez MA, Sánchez-Vocanegra HF, Rodriguez-Martinez R
(2023) Effect of THI on Milk Production, Percentage of Milking Cows,
and Time Lying in Holstein Cows in Northern-Arid Mexico. Animals 13:
Sanger F, Nicklen S, Coulson AR (1977) DNA sequencing with chain-terminat
ing inhibitors. PNAS 74: 5463-5467.
Sanjayaranj I, MacGibbon AKH, Holroyd SE, Janssen PWM, Blair HT, Lo
pez-Villalobos N (2023) Association of Single Nucleotide Polymorphism
in the DGAT1 Gene with the Fatty Acid Composition of Cows Milked
Once and Twice a Day. Genes 14: 767.
Sedykh TA, Gladyr EA, Kharzinova VR, Gizatullin RS, Kalashnikova LA
(2017) Effect of GH and DGAT1 gene polymorphism on feeding qualities
of bull calves. Russ Agric Sci 43: 48-52.
Selvaggi M, Dario C, Normanno G, Celano GV, Dario M (2009) Genetic poly
morphism of STAT5A protein: relationships with production traits and
milk composition in Italian Brown cattle. J Dairy Res 76: 441-445.
Shafey HI, Mahrous KF, Hassan AAM, Rushdi HE, Ibrahim MAE-AM (2020)
Single-nucleotide polymorphisms in FABP4 gene associated with growth
traits in Egyptian sheep. Vet World 13: 1126.
Singh U, Deb R, AlyethodiRR, Alex R, Kumar S, Chakraborty S, Dhama K,
Sharma A (2014). Molecular markers and their applications in cattle genet
ic research: A review. Biomark Genom Med6: 49-58.
Smaragdov MG (2011) Association of the DGAT1 gene polymorphism in bulls
with cow milk performance. Russ J of genet 47: 110-115.
Song Q, Jia G, Hyten DL, Jenkins J, Hwang E-Y, Schroeder SG, Osorno JM,
Schmutz J, Jackson SA, McClean PE (2015) SNP assay development for
linkage map construction, anchoring whole-genome sequence, and other
genetic and genomic applications in common bean. G3: GENES, GEN
OM, GENET 5: 2285-2290.
Spss I (2009) PASW statistics for Windows. SPSS Inc Chicago.
Tamura K, Dudley J, Nei M, Kumar S (2007) MEGA4: molecular evolutionary
genetics analysis (MEGA) software version 4.0. Mol biol evol 24: 1596
Vignal A, Milan D, SanCristobal M, Eggen A(2002). A review on SNP and
other types of molecular markers and their use in animal genetics. Genet
Sel Evol 34(3):275-305.
Yang J, Jiang J, Liu X, Wang H, Guo G, Zhang Q, Jiang L (2016) Differential
expression of genes in milk of dairy cattle during lactation. Anim Gen
et47(2):174-80.
Yin B-z, Fang J-c, Zhang J-s, Zhang L-m, Xu C, Xu H-y, Shao J, Xia G-j(2020)
Correlations between single nucleotide polymorphisms in FABP4 and
meat quality and lipid metabolism gene expression in Yanbian yellow cat
tle. PloS One 15: e0234328.
Zhang L, Zhao Y, Ning Y, Wang H, Zan L (2017) Ectopical expression of
FABP4 gene can induce bovine muscle-derived stem cells adipogenesis.
BiochemBiophys Res Commun482: 352-358.
Zimmerman AW, Veerkamp JH (2002) New insights into the structure and func
tion of fatty acid-binding proteins. CMLS 59: 1096-1116.
