0:00:01.080,0:00:08.940 Hello. The topic of this lecture is genetic  diseases in rabbits and chinchillas. The lecture 0:00:08.940,0:00:16.260 is part of Module 4, Precision Livestock Farming.  The creation of this presentation was supported 0:00:16.260,0:00:23.520 by the ERASMUS+ KA2 grant within the project  ISAGREED, Innovation of Content and Structure of 0:00:23.520,0:00:29.820 Study Programs in the Field of Animal Genetic and  Food Resources Management Using Digitalization. 0:00:31.740,0:00:37.860 What are genetic diseases? A genetic  disease occurs when mutations affect 0:00:37.860,0:00:42.060 the function of genes, resulting in  physical or functional deviations 0:00:42.060,0:00:48.120 from the normal state with a negative  impact on vitality. There are many types 0:00:48.120,0:00:53.760 of genetic diseases, including monogenic,  multifactorial, and chromosomal disorders. 0:00:56.100,0:01:01.200 Causes of genetic diseases include  mutations and their transmission to 0:01:01.200,0:01:06.840 the next generation of offspring. Genetic  diseases are divided into three groups: 0:01:06.840,0:01:14.640 Monogenic diseases -> mutations in one gene  (on one or both chromosomes) - for example, 0:01:14.640,0:01:21.060 cystic fibrosis, sickle cell anemia  (mainly metabolic disorders). 0:01:22.200,0:01:28.740 Multifactorial inherited diseases -> a combination  of variability in many genes and the environment 0:01:30.660,0:01:37.200 (quantitative, complex diseases) - heart  diseases, diabetes, most types of cancer, 0:01:37.200,0:01:46.200 hip dysplasia in dogs. Chromosomal diseases  -> increase or decrease in the number 0:01:47.040,0:01:53.820 and functions of genes through changes in the  number or structural changes of chromosomes. 0:01:57.240,0:02:04.680 Genetic nature of domestic rabbits The domestic  rabbit (Oryctolagus cuniculus) is one of the 0:02:04.680,0:02:12.360 most recently domesticated species (probably  in the last 1,500 years) and is characterized 0:02:12.360,0:02:20.040 by exceptionally high phenotypic diversity -  there are more than 200 breeds known worldwide. 0:02:21.000,0:02:26.520 Breeds differ significantly in weight,  body structure, fur type, fur color, 0:02:26.520,0:02:29.640 and ear length, and this visible morphological 0:02:29.640,0:02:35.400 variability exceeds the phenotypic  diversity of their wild counterparts. 0:02:36.480,0:02:43.380 Normal rabbits serve as a model for studying  human diseases such as hyperlipidemia and related 0:02:43.380,0:02:49.320 diseases, cancer and diabetes mellitus,  tuberculosis, papillomavirus infection, 0:02:49.320,0:02:57.780 atherosclerosis, obesity and type II diabetes,  prion diseases, lung and airway morphometry. 0:02:58.980,0:03:04.680 Rabbits are used as bioreactors for the production  of pharmaceutical proteins - for example, 0:03:04.680,0:03:09.780 recombinant human C1 inhibitor in milk. Transgenic/gene-edited rabbits 0:03:09.780,0:03:18.900 are widely used as model organisms for biomedical  research. In the last decade, more than fifty 0:03:18.900,0:03:26.160 rabbit models with gene knockouts or knock-ins  have been described. Rabbits have a new role 0:03:26.160,0:03:33.900 as specialized tools, especially as models for  imaging organs and tissues in situ and in vivo. 0:03:36.480,0:03:47.940 The genome of a rabbit according to the OryCun2.0  assembly has a size of 2.7 Gbp and contains 20,613 0:03:49.140,0:03:56.220 protein coding genes. The rabbit genome was  fully sequenced for the first time in 2009. 0:03:58.380,0:04:07.800 There is a database of Mendelian traits in animals  - OMIA.org. Currently, there are a total of 125 0:04:07.800,0:04:16.500 traits recorded in rabbits, out of which 75 have  a proven Mendelian trait or disease, and 16 have 0:04:16.500,0:04:21.660 a determined gene and causal mutation. Some of the autosomal 0:04:21.660,0:04:28.440 recessive diseases in rabbits include: Oculocutaneous albinism type I (OCA1), 0:04:28.440,0:04:39.060 TYR-related: The TYR gene (tyrosinase) located  on chromosome 1. The 1118C>A substitution leads 0:04:39.060,0:04:52.320 to a missense mutation (Thr>Lys) at codon 373. Abnormal gait, retinal dysplasia, cataracts: 0:04:58.140,0:05:04.740 Disrupts saltatorial locomotion. The proven gene  is RORB (RAR-related orphan receptor B) located on 0:05:04.740,0:05:15.000 chromosome 1, with a mutation in the same allele -  g.61103503G>A (in the 5' donor site of intron 9). 0:05:17.520,0:05:24.240 Adrenal hyperplasia: Results in death immediately  after birth due to hypersecretion of adrenaline. 0:05:24.240,0:05:34.560 The responsible gene is CYP11A1 (cytochrome P450,  family 11, subfamily A, polypeptide 1), with an 0:05:35.100,0:05:39.660 ah allele - a large deletion mutation. 0:05:45.300,0:05:54.060 Long hair: Regulates hair growth. The  gene is FGF5 (fibroblast growth factor 0:05:54.060,0:06:02.880 5) located on chromosome 15. There is a  missense mutation, c.571T>C, p.(L191S). 0:06:06.420,0:06:09.240 Autosomal incomplete dominance: Dwarfism 0:06:11.520,0:06:19.680 with the HMGA2 gene (high mobility group AT-hook  2) on chromosome 4. The dw allele is a deletion, 0:06:19.680,0:06:30.240 covering approximately 12.1 kb overlapping the  promoter region and the first three exons of 0:06:30.240,0:06:37.320 the HMGA2 gene, resulting in gene inactivation. Chinchilla (Chinchilla lanigera): Chinchillas 0:06:37.320,0:06:44.220 are rodents belonging to the family Chinchillidae  and are closely related to guinea pigs and degus. 0:06:44.880,0:06:50.220 There are two species of chinchillas, Chinchilla  chinchilla (short-tailed chinchilla) and 0:06:50.220,0:06:57.360 Chinchilla lanigera (long-tailed chinchilla). The  chinchilla genome has a total sequence length of 0:06:59.160,0:07:05.700 2.39 Gbp, with a diploid chromosome number of 64. 0:07:10.680,0:07:24.600 It contains 17809 protein–coding genes. Fur chewing: Many captive chinchillas 0:07:24.600,0:07:30.720 exhibit fur chewing behavior. This behavior  not only affects the fur price but can also 0:07:30.720,0:07:36.180 have negative physiological and productive  consequences, impacting animal welfare. 0:07:36.900,0:07:46.500 The estimated heritability is h2 = 0.16. To reduce  the occurrence of this behavior, improvement 0:07:46.500,0:07:52.080 in selection and management practices used in  fur-bearing animal breeding should be implemented. 0:07:53.820,0:08:00.360 Urinary stones (Urolithiasis) occur in  chinchillas: The formation of stones 0:08:00.360,0:08:07.140 in the urinary tract or a condition associated  with the presence of these stones. There is no 0:08:07.140,0:08:13.800 direct evidence that this disorder is inherited in  chinchillas. However, it was included because the 0:08:13.800,0:08:21.300 same disorder is undoubtedly hereditary in other  species, and there is no reason to believe that 0:08:21.300,0:08:28.140 the same situation does not apply to chinchillas. Skin diseases in chinchillas include: 0:08:30.480,0:08:36.600 Fur slip: Loss of fur often occurs  when handling chinchillas roughly or 0:08:36.600,0:08:41.520 when they are extremely stressed. The  lost fur regrows but may take some time. 0:08:43.140,0:08:50.700 Fur ring: Fur rings commonly occur in male  chinchillas. A ring of fur can wrap around 0:08:50.700,0:08:56.820 the penis inside the prepuce. This  ring needs to be removed before it 0:08:56.820,0:09:03.000 constricts blood flow to the tip of  the penis. Males, especially those 0:09:03.000,0:09:08.520 in breeding colonies or housed with other  chinchillas, should be regularly checked. 0:09:09.720,0:09:16.980 Ringworm: Ringworm caused by Trichophyton  mentagrophytes can cause alopecia in chinchillas. 0:09:17.520,0:09:24.480 The most commonly affected areas are the  upper part of the nose and ear flaps. 0:09:24.480,0:09:30.780 Treatment for this condition often  involves adding an antifungal powder 0:09:30.780,0:09:36.900 to a sand bath. These conditions are also  considered to have a hereditary predisposition. 0:09:39.360,0:09:45.660 Infertility is another serious condition in  chinchillas. Poor reproduction can be caused by 0:09:45.660,0:09:53.220 several possible factors, including malnutrition,  abnormal sperm, hormonal imbalance, infectious 0:09:53.220,0:10:00.780 diseases, lack of experience, and lethal genes  from inappropriate crossbreeding. For example, 0:10:00.780,0:10:06.660 mating between chinchillas with the same genes  for white and velvet fur color should be avoided. 0:10:07.920,0:10:13.860 Infectious and dietary factors and  poor overall health can also cause 0:10:13.860,0:10:16.620 infertility in both male and female chinchillas. 0:10:19.700,0:10:22.440 And thank you for your attention.