Vocalization Characters and Forkhead Box P2 (FoxP2) Polymorphism in Indonesian Crowing-Type Chicken (Gallus gallus domesticus)
الموضوعات :
ب.اس. دریونو
1
(Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sleman 55281, Yogyakarta, Indonesia)
م. موشلیح
2
(Laboratory of Molecular Biology, Faculty of Healthy Science, Universitas Muhammadiyah Sidoarjo, Jl. Raya Rame Pilang, Sidoarjo, Indonesia)
آ.ب.آی. پرداماین
3
(Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sleman 55281, Yogyakarta, Indonesia)
الکلمات المفتاحية: bioaccoustic, crowing-type chicken, FoxP2, pelung chicken,
ملخص المقالة :
Crowing-type chicken is one of the important chicken breeds in Indonesia. This study was conducted to investigate the crowing characters of Pelung chicken and the effect of exon 7 FoxP2 gene polymorphism in mute chicken. Chicken were obtained from local breeder. Pelung chicken crowing and morphology characterizations were conducted in Cianjur, West Java, Indonesia. Chicken breeding (♀ broiler×♂ Pelung and ♀ Pelung×♂ F1), DNA extraction and FoxP2 gene amplification were conducted at the Faculty of Biology, Gadjah Mada University. Results showed that the crowing duration was approximately 8.435 ± 1.647 s, consisting of 1.104 ± 0.210 s first syllable, 5.532 ± 1.274 s second syllable, and 1.858 ± 0.969 s third syllable. Cross-breeding between Pelung and broiler chicken resulted in chicken progeny all of which were of non-crowing-type. Our breeding results indicated that long crowing traits followed recessive autosomal inheritance. Sanger sequencing revealed an identical exon 7 sequence in mute and normal crowing-type chicken. Therefore, crowing is an important character for determining chicken breed purity, and our bioacoustic analysis was applicable in chicken show.
Brainard M.S. and Doupe A.J. (2013). Translating birdsong: Songbirds as a model for basic and applied medical research. Ann. Rev. Neurosci. 36, 489-517.
Fontana I., Tullo E., Carpentier L., Berckmans D., Butterworth A., Vranken, E., Norton T., Berckmans D. and Guarino M. (2017). Sound analysis to model weight of broiler chickens. Poult. Sci. 96(11), 1-6.
French C.A. and Fisher S.E. (2014). What can mice tell us about Foxp2 function?. Curr. Opin. Neurobiol. 28, 72-79.
Hurst J.A., Baraitser M., Auger E., Graham F. and Norell S. (1990). An extended family with a dominantly inherited speech disorder. Dev. Med. Child Neurol. 32(4), 352-355.
Iskandar S. and Susanti T. (2007). Karakter dan manfaat ayam pelung di indonesia. Wartazoa. 17(3), 128-136.
Jenny I. (2013). The effect of tonsillectomy with or without Adenoidectomy in voice formant. Ph D. Thesis. Gadjah Mada Univ., Yogyakarta, Indonesia.
Konopka G. and Roberts F.R. (2016). Insights into the neural and genetic basis of vocal communication. Cell. 164(6), 1269-1276.
Lai C.S.L., Fisher S.E., Hurst J.A., Vargha-Khadem F.M. and Anthony P. (2001). A forkhead-domain gene is mutated in a severe speech and language disorder. Nature. 413, 519-523.
Li G., Wang J., Rossiter S.J., Jones G. and Zhang S. (2007). Accelerated FoxP2 evolution in echolocating bats. PLoS One. 2(9), e900.
MacDermot K.D., Bonora E., Sykes N., Coupe A., Lai C.S.L., Vernes, S.C., Vargha-Khadem F., McKenzie F., Smith R.L., Monaco A.P. and Fisher S.E. (2005). Identification of FOXP2 truncation as a novel cause of developmental speech and language deficits. American J. Hum. Genet. 76(6), 1074-1080.
Marler P. and Tamura M. (1964). Culturally transmitted patterns of vocal behavior in sparrows. Science (New York, N.Y.) 146(3650), 1483-1486.
Meitzen J. and Christopher K.T. (2008). Seasonal-like growth and regression of the avian song control system: Neural and behavioral plasticity in adult male Gambel’s White-crowned sparrows. Gen. Comp. Endocrinol. 157(3), 259-265.
Mori C., Liu W.C. and Wada K. (2018). Recurrent development of song idiosyncrasy without auditory inputs in the canary, an open-ended vocal learner. Sci. Rep. 8(1), 8732-8740.
Mundinger P.C. and Lahti C.L. (2014). Quantitative integration of genetic factors in the learning and production of canary song. Proc. Royal Soc. B. Biol. Sci. 281(1781), 2013-2631.
Murugan M., Harward S., Scharff C. and Mooney R. (2013). Diminished FoxP2 levels affect dopaminergic modulation of corticostriatal signaling important to song variability. Neuron 80(6), 1464-1476.
Nudel R. and Newbury F.N. (2013). FOXP2. Wiley Interdiscip. Rev. Cogn. Sci. 4(5), 547-460.
Oswald F., Klöble P., Ruland A., Rosenkranz D., Hinz B., Butter F., Ramljak S., Zechner U. and Herlyn H. (2017). The FOXP2-driven network in developmental disorders and neurodegeneration. Front. Cell. Neurosci. 11, 212-220.
Perdamaian A.B.I., Saragih H.T.S.S.G. and Daryono B.S. (2017). Effect of varying level of crude protein and energy on insulin-like growth factor-i expression level in indonesian hybrid chicken. Int. J. Poult. Sci. 16(1), 1-5.
Retnoaji B., Wulandari R., Nurhidayat L. and Daryono B.S. (2016). Osteogenesis study of hybrids of Indonesia’s native chicken Pelung (Gallus gallus domesticus) with Broiler (Gallus gallus domesticus). Asian J. Anim. Vet. Adv. 11(8), 498-504.
Saragih H.T.S.S.G. and Daryono B.S. (2016). Histological study on the pancreatic [beta]-cell number of indigenous chicks in first crossbred (F1). J. Indonesian Trop. Anim. Agric. 35(3), 201-205.
Soha J.A. and Marler P. (2000). A species-specific acoustic cue for selective song learning in the white-crowned sparrow. Anim. Behav. 60(3), 297-306.
Tefera M. (2012). Acoustic signals in domestic chicken (Gallus gallus domesticus): A tool for teaching veterinary ethology and implication for language learning. Ethiopian Vet. J. 16(2), 77-84.
Ulfah M., Kawahara-Miki R., Muladno M., Dorshorst B., Martin A. Kono T. (2016). Genetic features of red and green junglefowls and relationship with Indonesian native chickens Sumatera and Kedu Hitam. BMC Genom. 17(1), 320-329.
Ulfah M., Perwitasari D., Jakaria J., Muladno M. and Farajallah A. (2017). Multiple maternal origins of Indonesian crowing chickens revealed by mitochondrial DNA analysis. Mitochondrial DNA Part A. 28(2), 254-262.
Utama I.V., Perdamaian A.B.I. and Daryono B.S. (2018). Plumage uniformity, growth rate and growth hormone polymorphism in Indonesian hybrid chickens. Int. J. Poult. Sci. 17(10), 486-492.
Vernes S.C., Newbury D.F., Abrahams B.S., Winchester L., Nicod J., Groszer M., Alarcon M., Oliver P.L., Davies K.E., Geschwind D.H., Monaco A.P. and Fisher S.E. (2008). A functional genetic link between distinct developmental language disorders. New England J. Med. 359(22), 2337-2345.
Vernes S.C., Oliver, P.L., Spiteri, E., Lockstone, H., Puliyadi, R., Taylor, J.M., Ho J., Mombereau C., Brewer A., Lowy E., Nicod J., Groszer M., Baban D., Sahgal N., Cazier J.B., Ragoussis J., Davies K.E., Geschwind D.H. and Fisher S.E. (2011). Foxp2 regulates gene networks implicated in neurite outgrowth in the developing brain. PLoS Genet. 7(7), e1002145.
Wang X., Li H., Hamid M.A. and Zhao X. (2012). Differential expression of forkhead box protein 2 between genders in chickens. African J. Biotechnol. 11(58), 12153-12157.
Webb D.M. and Zhang J. (2005). FoxP2 in song-learning birds and vocal-learning mammals. J. Hered. 96, 212-216.
Wright T.F., Brittan-Powell E.F., Dooling R.J. and Mundinger P.C. (2004). Sex-linked inheritance of hearing and song in the Belgian Waterslager canary. Proc. Biol. Sci. 6(6), 409-412.
Zhang G., Cowled C., Shi Z., Huang Z., Bishop-Lilly K.A., Fang X., Wynne J.W., Xiong Z., Baker M.L., Zhao W., Tachedjian M., Zhu Y., Zhou P., Jiang X., Ng J., Yang L., Wu L., Xiao J., Feng Y., Chen Y., Sun X., Zhang Y., Marsh G.A., Crameri G., Broder C.C., Frey K.G., Wang L.F. and Wang J. (2013). Comparative analysis of bat genomes provides insight into the evolution of flight and immunity. Science. 339(6118), 456-460.
Zhang J., Webb D.M. and Podlaha O. (2002). Accelerated protein evolution and origins of human-specific features: FOXP2 as an example. Genetics. 162(4), 1825-1835.
