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<http://dbpedia.org/resource/Cat_genetics>	<http://dbpedia.org/ontology/abstract>	"Cat genetics describes the study of inheritance as it occurs in domestic cats. In feline husbandry it can predict established traits (phenotypes) of the offspring of particular crosses. In medical genetics, cat models are occasionally used to discover the function of homologous human disease genes. The domesticated cat and its closest wild ancestor are both diploid organisms that possess 38 chromosomes and roughly 20,000 genes. About 250 heritable genetic disorders have been identified in cats, many similar to human inborn errors. The high level of similarity among the metabolisms of mammals allows many of these feline diseases to be diagnosed using genetic tests that were originally developed for use in humans, as well as the use of cats in the study of the human diseases. An example of a mutation that is shared among all felines, including the big cats, is a mutant chemosensor in their taste buds that prevents them from tasting sweetness, which may explain their indifference to fruits, berries, and other sugary foods. In some breeds of cats congenital sensorineural deafness is very common, with most white cats (but not albinos) being affected, particularly if they also have blue eyes. The gene responsible for this defect is the KIT gene and the disease is studied in the hope that it may shed light on the causes of hereditary deafness in humans. Mutations in this gene also causes white spotting. Since a large variety of coat patterns exist within the various cat breeds, the cat is an excellent animal to study the coat genetics of hair growth and coloration. Several genes interact to produce cats' hair color and coat patterns. Different combinations of these genes give different phenotypes. For example, the enzyme tyrosinase is needed to produce the dark pigment melanin and Burmese cats have a mutant form that is only active at low temperatures, resulting in color appearing only on the cooler ears, tail and paws. A completely inactive gene for tyrosinase is found in albino cats, which therefore lack all pigment. Hair length is determined by the gene for fibroblast growth factor 5, with inactive copies of this gene causing long hair. The Cat Genome Project, sponsored by the Laboratory of Genomic Diversity at the U.S. National Cancer Institute Frederick Cancer Research and Development Center in Frederick, Maryland, aims to help the development of the cat as an animal model for human hereditary and infectious diseases, as well as contributing to the understanding of the evolution of mammals. This effort led to the publication in 2007 of an initial draft of the genome of an Abyssinian cat called Cinnamon. The existence of a draft genome has led to the discovery of several cat disease genes, and even allowed the development of cat genetic fingerprinting for use in forensics."@en .
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<http://dbpedia.org/resource/Cat_genetics>	<http://dbpedia.org/ontology/abstract>	"El t\u00E9rmino gen\u00E9tica felina se refiere al estudio de la herencia gen\u00E9tica transmitida de una generaci\u00F3n de gatos a otra. Se pueden predecir los rasgos f\u00EDsicos de la descendencia del cruce de algunas razas. La medicina gen\u00E9tica utiliza ocasionalmente el gato como modelo para descubrir la funci\u00F3n de los genes hom\u00F3logos a enfermedades humanas. Los gatos dom\u00E9sticos, y su ancestro salvaje m\u00E1s cercano, son organismos diploides que poseen 38 Cromosomas\u200B y alrededor de 20 000 genes.\u200B Se han identificado aproximadamente 250 des\u00F3rdenes gen\u00E9ticos hereditarios en los gatos, algunos similares a las enfermedades cong\u00E9nitas de los humanos.\u200B Debido a la alta similitud metab\u00F3lica entre mam\u00EDferos, muchas de estas enfermedades pueden ser diagnosticadas con pruebas gen\u00E9ticas dise\u00F1adas para los seres humanos, es tambi\u00E9n aplicable a la inversa, es decir el uso de gatos en el estudio de enfermedades humanas.\u200B\u200B Un ejemplo de una mutaci\u00F3n que se comparte entre todos los felinos, incluyendo los gatos grandes, es un sensor qu\u00EDmico mutado de sus papilas gustativas que impide que reconozcan el sabor dulce, por lo que esto podr\u00EDa ser una de las razones de su indiferencia a las frutas, moras y otros alimentos de este tipo.\u200B En algunas razas de gatos la sordera cong\u00E9nita es muy com\u00FAn, afecta a gatos blancos no albinos en especial si tambi\u00E9n tienen los ojos azules.\u200B Los genes causantes de esta mutaci\u00F3n son desconocidos, pero la enfermedad es estudiada con la esperanza de encontrar la raz\u00F3n de la sordera hereditaria humana.\u200B Existe una gran variedad de patrones de pelaje entre las diferentes razas de gatos, es por esto que son un excelente modelo para estudiar la gen\u00E9tica del pelo y su coloraci\u00F3n.\u200B Varios Genes est\u00E1n relacionados con la producci\u00F3n del color y patr\u00F3n del pelo en los felinos. Diferentes combinaciones de estos genes dan como resultado diferentes fenotipos. Por ejemplo, la enzima tirosinasa es la responsable de la producci\u00F3n la melanina un pigmento negro, los gatos birmanos tienen una forma mutante que s\u00F3lo es activa a bajas temperaturas, resultando en color que aparece s\u00F3lo en las orejas, m\u00E1s frescas, la cola y las patas.\u200B Los gatos albinos tienen completamente inactivo el gen que produce tirosinasa lo que produce la ausencia de pigmentaci\u00F3n.\u200B El largo del pelo est\u00E1 determinado por el gen que produce el factor de crecimiento fibroblasto 5, por lo que cuando se encuentra inactivo produce largos pelajes.\u200B El proyecto del genoma felino, patrocinado por el Laboratorio de Diversidad Gen\u00F3mica del Instituto Nacional de C\u00E1ncer en el Centro de Desarrollo Frederick, en Maryland, Estados Unidos,\u200B busca desarrollar, a partir de los gatos, un modelo animal aplicable a humanos para enfermedades hereditarias e infeccionas, as\u00ED como contribuir al entendimiento de la evoluci\u00F3n de mam\u00EDferos. Este esfuerzo llev\u00F3 a la publicaci\u00F3n en 2007 de un proyecto inicial del genoma de un gato abisinio llamado Canela.\u200B La existencia del proyecto de genoma ha llevado al descubrimiento de varios genes de la enfermedad del gato,,\u200B e incluso permiti\u00F3 el desarrollo de la huella gen\u00E9tica del gato para su uso en el campo forense.\u200B"@es .
<http://dbpedia.org/resource/Cat_genetics>	<http://dbpedia.org/ontology/abstract>	"Genetika kucing menggambarkan studi tentang pewarisan seperti yang terjadi pada kucing domestik. Dalam peternakan kucing dapat memprediksi sifat-sifat yang telah ditetapkan dari keturunan persilangan tertentu. Dalam genetika medis, model kucing kadang-kadang digunakan untuk menemukan fungsi gen penyakit manusia homolog. Kucing peliharaan dan nenek moyang terdekatnya adalah organisme diploid yang memiliki 38 kromosom dan memiliki sekitar 20.000 gen. Sekitar 250 kelainan genetik telah diidentifikasi pada kucing, banyak yang mirip dengan kelainan genetik bawaan pada manusia. Tingkat kemiripan yang tinggi di antara metabolisme mamalia memungkinkan banyak dari penyakit kucing ini didiagnosis menggunakan tes genetik yang pada awalnya dikembangkan untuk digunakan pada manusia, serta penggunaan kucing dalam studi penyakit manusia. Contoh mutasi yang terjadi pada semua kucing, termasuk kucing besar, adalah mutan di indra perasa mereka yang mencegah mereka merasakan rasa manis, yang mungkin menjelaskan ketidakpedulian mereka terhadap buah-buahan, beri, dan makanan manis lainnya. Pada beberapa ras kucing, tuli sensorineural bawaan sangat umum terjadi, dengan sebagian besar kucing putih (bukan kucing albino) terpengaruh, terutama jika mereka juga memiliki mata biru. Gen yang bertanggung jawab atas cacat ini adalah gen KIT dan penyakit ini dipelajari dengan harapan dapat menjelaskan penyebab tuli herediter pada manusia. Mutasi pada gen ini juga menyebabkan bercak putih. Karena ada banyak variasi pola bulu dalam berbagai ras kucing, kucing adalah hewan yang sangat tepat untuk mempelajari genetika bulu dari pertumbuhan dan pewarnaan bulu. Beberapa gen berinteraksi untuk menghasilkan warna rambut dan pola bulu kucing. Kombinasi yang berbeda dari gen ini memberikan fenotipe yang berbeda. Misalnya, enzim tirosinase diperlukan untuk menghasilkan pigmen gelap melanin dan kucing Burma memiliki bentuk mutan yang hanya aktif pada suhu rendah, sehingga warna hanya muncul pada telinga, ekor, dan beberapa cakar kucing. Gen yang sama sekali tidak aktif untuk tirosinase ditemukan pada kucing albino, karena tidak memiliki semua pigmen. Panjang rambut ditentukan oleh 5 faktor gen pertumbuhan fibroblast, dengan salinan tidak aktif dari gen ini yang menyebabkan rambut panjang. Proyek Genom Kucing, disponsori oleh Laboratorium Keanekaragaman Genomik di AS National Cancer Institute Frederick Cancer Research and Development Center di Frederick, Maryland, bertujuan untuk membantu pengembangan kucing sebagai model hewan untuk penyakit keturunan dan infeksi manusia, sebagai serta berkontribusi pada pemahaman tentang evolusi mamalia. Upaya ini menyebabkan publikasi pada tahun 2007 dari rancangan awal genom kucing Abyssinian yang disebut Cinnamon. Adanya rancangan genom telah menyebabkan penemuan beberapa gen penyakit kucing, dan bahkan memungkinkan pengembangan sidik jari genetik kucing untuk digunakan dalam ilmu forensik."@in .
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