Investigation of the role of opsin gene polymorphism in generalized progressive retinal atrophies in dogs

The generalized progressive retinal atrophies (gPRAs) form a group of retinal degenerations of pedigree dogs and cats, which have a variety of genetic origins (mostly unknown). We have examined the opsin gene for polymorphisms in several breeds of pedigree dog suffering from distinct forms of gPRA, by methods including single-strand conformation polymorphism analysis, microsatellite analysis and direct sequencing. The breeds examined included the Tibetan terrier, the miniature schnauzer, the Irish setter, the miniature poodle, the Labrador retriever and the English cocker spaniel, as well as individuals from breeds in which PRA has not been described and of mixed breed. Individuals from each of the named breeds suffering from PRA were compared with clinically normal dogs. Two polymorphisms were found. One, segregating within the Tibetan terrier population, but not seen in other breeds, was a synonymous transition at nucleotide position 780 in exon 3. Inheritance of this polymorphism suggests that opsin is unlikely to contain mutations causative of gPRA in this breed. The other polymorphism occurred between all miniature schnauzers examined and dogs of other breeds. It consisted of a single base insertion in intron 2. No polymorphisms in the opsin sequence were detected in any other breed. DNA sequencing allowed rigorous exclusion of mutations in opsin as a cause of gPRA in miniature poodles, English cocker spaniels or Labrador retrievers.     

Evaluation of ROM1 as a candidate gene in generalised progressive retinal atrophy in dogs

Generalised progressive retinal atrophy (gPRA) is a heterogeneous group of hereditary diseases causing degeneration of the retina in dogs and other animals. The genetic origin is unknown in most cases. We have screened the coding sequence of the ROM1 gene for disease causing mutations in Tibetan Terriers, Miniature Poodles, Dachshunds and Chesapeake Bay Retrievers by single strand conformation polymorphism analysis (SSCP). Two polymorphisms have been identified by sequencing, one in exon 1 in all examined breeds (position 210: G→A; Gly40Arg and position 252: G→T; Ala53Ser). Another polymorphism was present in exon 2 (position 1150: C→T and position 1195: C→T) segregating in Miniature Poodles. None of these polymorphisms were cosegregating with gPRA rendering a disease causing mutation in the ROM1 gene unlikely.     

Evaluation of RDS/Peripherin and ROM1 as candidate genes in generalised progressive retinal atrophy and exclusion of digenic inheritance

Generalised progressive retinal atrophy (gPRA) is a heterogeneous group of hereditary diseases causing degeneration of the retina in dogs and cats. As a combination of mutations in the RDS/Peripherin and the ROM1 genes leads to the phenotype of retinitis pigmentosa in man we first performed mutation analysis to screen these genes for disease causing mutations followed by the investigation of a digenic inheritance in dogs. We cloned the RDS/Peripherin gene and investigated the RDS/Peripherin and ROM1 genes for disease causing mutations in 13 gPRA-affected dog breeds including healthy animals, obligate gPRA carriers and gPRA-affected dogs. We screened for mutations using single strand conformation polymorphism (SSCP) analysis. Sequence analysis revealed several sequence variations. In the coding region of the RDS/Peripherin gene three nucleotide exchanges were identified (A277C; C316T; G1255A), one of which leads to an amino acid substitution (Ala339Thr). Various silent sequence variations were found in the coding region of the ROM1 gene (A536G, G1006A, T1018C, T1111C, C1150T, C1195T), as well as an amino acid substitution (G252T; Ala54Ser). By excluding the respective gene as a cause for gPRA several sequence variations in the intronic regions were investigated. None of these sequence variations cosegregated with autosomal recessively (ar) transmitted gPRA in 11 breeds. The candidate gene RDS/Peripherin obviously does not harbour the critical mutation causing the autosomal recessive form of gPRA because diseased individuals show heterozygous genotypes for sequence variations in the Miniature Poodle, Dachshund, Australian Cattle Dog, Cocker Spaniel, Chesapeake Bay Retriever, Entlebucher Sennenhund, Sloughi, Yorkshire Terrier, Tibet Mastiff, Tibet Terrier and Labrador Retriever breeds. In the following breeds the ROM1 gene was also excluded indirectly for gPRA: Miniature Poodle, Dachshund, Australian Cattle Dog, Sloughi, Collie, Tibet Terrier, Labrador Retriever and Saarloos/Wolfhound. Digenic inheritance for gPRA is practically excluded for both these genes in four breeds: Miniature Poodle, Dachshund, Labrador Retriever and Saarloos/Wolfhound.     

Exclusion of the PDE6A gene for generalised progressive retinal atrophy in 11 breeds of dog

The cyclic guanosine monophosphate specific phosphodiesterase (cGMP-specific PDE) is a key enzyme in the phototransduction cascade of the vertebrate retina. This enzyme consists of two catalytic alpha and beta subunits, two identical inhibitory gamma subunits as well as a delta subunit. Mutations in PDE6A and the PDE6B genes lead to autosomal recessive (ar) forms of retinitis pigmentosa (RP) in human and to the homologous disease in dogs, designated generalised progressive retinal atrophy (gPRA). We investigated the PDE6A gene in 13 gPRA-affected dog breeds including healthy animals, obligate gPRA carriers and gPRA-affected dogs. In the coding region of PDE6A only a rare sequence variation (G103A; Asp35Asn) was found in exon 1 of two healthy Tibet Terriers and one affected Cocker Spaniel. Using single-stranded conformation polymorphism (SSCP) analyses we detected several sequence variations in eight of the PDE6A introns in different investigated breeds. Most informative for excluding the PDE6A gene as a cause for gPRA was a polymorphic microsatellite ((GT)10CG(GT)2CG(GT)12) in intron 14 and four sequence variations in intron 18 for almost all breeds investigated. The sequence variations of PDE6A did not segregate together with gPRA in 11 breeds. Since diseased animals were heterozygous for the polymorphisms, the PDE6A gene is unlikely to harbour the critical mutation causing gPRA in the following breeds: Chesapeake Bay Retriever. Entlebucher Sennenhund, Labrador Retriever. Tibet Mastiff, Dachshund (long- and wire-haired), Tibetan Terrier, Miniature Poodle. Australian Cattle Dog, Cocker Spaniel, Saarloos/Wolfshound, Sloughi.     

Generalized progressive retinal atrophy of Sloughi dogs is due to an 8-bp insertion in exon 21 of the PDE6B gene

We investigated the gene encoding the beta subunit of cGMP phosphodiesterase (PDE6B) as a candidate for generalized progressive retinal atrophy (gPRA), an autosomal recessively transmitted eye disease in dogs. The PDE6B gene was isolated from a genomic library. Single-strand conformation polymorphism analysis revealed eight intronic variations in different subsets of the 14 dog breeds investigated. In addition, we identified an 8-bp insertion after codon 816 in certain Sloughi dogs. Analysis of PRA-affected and obligatory carrier Sloughis showed that this mutation cosegregates with disease status in a large pedigree. All other exchanges identified were not located in functionally relevant parts of the gene (e.g., in the splice signal consensus sites). In most dog breeds (Labrador retriever, Tibetan mastiff, dachshund, Tibetan terrier, miniature poodle, Australian cattle dog, cocker spaniel, collie, Saarloos wolfhound, Chesapeake Bay retriever, and Yorkshire terrier), PDE6B was excluded as a candidate gene for gPRA because heterozygous allele constellations were detected in diseased animals. Therefore, the PDE6B sequence variations did not segregate together with the mutation(s) causing gPRA. Direct and indirect DNA tests concerning gPRA can be offered now for a variety of different dog breeds.     

Analysis of PDE6D and PDE6G genes for generalised progressive retinal atrophy (gPRA) mutations in dogs

The δ and γ subunits of the cGMP-phosphodiesterase (PDE6D, PDE6G) genes were screened in order to identify mutations causing generalised progressive retinal atrophy (gPRA) in dogs. In the PDE6D gene, single nucleotide polymorphisms (SNP) were observed in exon 4, in introns 2 and 3 and in the 3'' untranslated region (UTR) of different dog breeds. In the coding region of the PDE6G gene, exclusively healthy Labrador Retrievers showed an A → G transition in exon 4 without amino acid exchange. SNP were also observed in introns 1 and 2 in different dog breeds. The different SNP were used as intragenic markers to investigate the involvement of both genes in gPRA. The informative substitutions allowed us to exclude mutations in the PDE6D and PDE6G genes as causing retinal degeneration in 15 of the 22 dog breeds with presumed autosomal recessively transmitted (ar) gPRA.     

Autosomal dominant retinal dystrophy (Rdy) in Abyssinian cats: exclusion of PDE6G and ROM1 and likely exclusion of Rhodopsin as candidate genes

Retinal dystrophy (Rdy) is an autosomal dominant photoreceptor dysplasia of Abyssinian cats and a model for autosomal dominant retinitis pigmentosa (ADRP) in man. We have pursued a candidate gene approach in the search for the causal mutation in Rdy. The genes RHO (encoding rhodopsin), ROM1 (encoding the structural retinal outer-membrane protein-1) and PDE6G (encoding the gamma subunit of the visual transduction protein cyclic guanosine monophosphate-phosphodiesterase) were polymerase chain reaction-amplified from normal feline genomic DNA. Leader, coding and 3' untranslated regions of each gene, and parts of introns were sequenced. Single-stranded conformation polymorphism (SSCP) analysis of Rdy-affected and normal cats was used to identify intragenic polymorphisms within ROM1 and PDE6G. DNA sequencing of all three genes in Rdy-affected cats was used to confirm results from SSCP. For both ROM1 and PDE6G polymorphisms identified by SSCP and sequencing showed disconcordance between the polymorphism and the disease phenotype within an Rdy disease pedigree. SSCP analysis of RHO performed across the 5' untranslated region, the entire coding sequence and the intron/exon boundaries in Rdy-affected and control cats failed to identify any intragenic polymorphisms that could be used for linkage analysis. DNA sequencing of these regions showed no differences between Rdy-affected and control cats. Mutations in ROM1 or in PDE6G are not causative of feline Rdy. The absence of potentially pathogenic polymorphisms in sequenced portions of the RHO gene makes it unlikely that a mutation in this gene is the cause of Rdy.     

中国维吾尔族人群MSY1(DYF155S1)基因座多态性及其结构特点

应用荧光标记MVR-PCR、Amp-FLP与DNA序列分析技术等检测106例中国维吾尔族人群无关男性个体血纱样品,揭示了中国维吾尔族人群Y特异的小卫星MSY1 (DYF155S1)基因座5′和3′端多态性及其基因结构特点。DYF155S1基因座的多态性表现为3个方面：（1）长度多态性;（2）5′端多态性;（3）3′端多态性。106例无关个体共检出37个不同长度的片段,5′端检出68个类型,3′端检出23个类型。综合这3方面多态性,106例个体间没有相同,其基因多样性（h）超过0.9999。DNA序列分析发现该基因座5′端表现有7种模块结构,3′端有2种模块结构。DYF155S2片段缺失率约为4.7%。MVR-PCR、Amp-FLP与DNA序列分析技术结合起来可以更充分地揭示人群Y染色体特异的小卫星MSY1（DYF155S1）基因座多态性,并提出命名方式,从而为人类遗传学及法医学研究提供了有用的方法和基础资料。 Abstract:The study is to reveal the diversity and gene structure of 5′ and 3′ end of DYF155S1 locus in Y-chromosome minisatellite among Chinese Uygur population.Fluorescent MVR-PCR（minisatellite variant repeat by PCR）,Amp-FLP(Amplified fragment length polymorphism) and DNA sequencing methods were used repectively to detect 106 unrelated males among Chinese Uygur population.The polymorphisms of DYF155S1 locus could be revealed in three aspects:(1) polymorphic length:the sizes of amplified fragments ranged from 1405 to 2505bp.There are 37 types found among the 106 unrelated males.(2) polymorphism at 5′ end of DYF155S1 locus,68 types found among the 106 unrelated males.(3) polymorphism at 3′ end of DYF155S1 locus,23 types found among the 106 unrelated males.In combination of these three aspects of polymorphism,none of the 106 unrelated males tested had the same allele,and the gene diversity(h) was over 0.9999.Seven and two types of modular structure were founded in the 5′ and 3′ end of DYF155S1 locus,respectively,by DNA sequencing.The alleles at DYF155S2 locus showed yes/no dimorphism and the rate of deletion was 4.7%.The polymorphisms of DYF155S1 locus were fully revealed by using combination of MVR-PCR, Amp-FLP and DNA sequencing methods, and we suggested the nomenclature for alleles of MVR loci.These methods are useful tools and provide basic data for the study of human genetics and forensic medicine.     

犬MC1R基因T105A基因座多态性及 与毛色性状相关性的研究The

为了检测犬MC1R基因T105A基因座的多态性,并分析该多态性与犬毛色表型的相关性,抽取111只外科手术学实验用杂种犬血液并提取DNA,记录毛色表型。采用PCR-RFLP技术,对MC1R基因T105A基因座进行基因多态性分析,并对该基因座DNA进行克隆测序;用二元变量相关分析的统计学方法分析基因座多态性与毛色性状之间的相关性。经PCR-RFLP分析结果表明,T105A基因座序列具有多态性,表现为A、B二个等位基因和AA、AB及BB 3种基因型。A、B等位基因频率分别为72.97%和27.03%,基因杂合度（H）为0.39。基因型AA频率为55.86%,BB为9.91%,AB为34.23%。对T105A多态性片段DNA克隆测序后发现,MC1R基因在编码第105位氨基酸的密码子第一个碱基存在由G到A的单碱基突变,该突变导致第105位氨基酸发生由丙氨酸向苏氨酸的改变。统计分析结果表明MC1R基因T105A基因座的多态性与毛色性状不存在显著的相关性,这可能是由于外科手术学实验用犬是杂种犬,其遗传背景不同所致,尚须在纯种犬群体中进一步研究MC1R基因对毛色的影响。 Abstract: In order to detect the polymorphism of T105A in MC1R gene in dogs and to analyze the relationship between the genetic polymorphisms and phenotypes of dog coat color, the blood samples of 111 cross-breed dogs were taken and their genomic DNAs were extracted. The phenotypes of dog coat color were recorded. The T105A locus of MC1R gene in the canine was detected through the technology of PCR-RFLP. Furthermore, the polymorphic fragments at T105A were sequenced. The relationships between the polymorphism of T105A and coat color trait were analyzed by the statistical methods of bivarate correlation analysis. By the method of PCR-RFLP, the T105A polymorphism was found with two alleles A and B and three genotypes AA, AB and BB. The frequencies of two alleles were 72.97% and 27.03%, respectively. The heterozygosity of T105A locus was 0.39. The frequencies of three genotypes were 55.86%, 34.23% and 9.91%, respectively. According to the results of sequencing, one base change from G to A at the position 105 was found at T105A locus and it altered amino acid at the position 105 from alanine to threonine. According to the statistical analysis, no significant association between the polymorphism of MC1R gene and the coat color was found and the result may be due to the differences of genetic background. Further research on MC1R gene should be done in pure breed dogs.     

Cloning of the cDNA for a novel photoreceptor membrane protein (rom-1) identifies a disk rim protein family implicated in human retinopathies.

The molecules essential to the continual morphogenesis and shedding of the opsin-containing disks of vertebrate photoreceptors are largely unknown. We describe a 37 kd protein, rom-1, which is 35% identical and structurally similar to peripherin/retinal degeneration slow (rds). Like peripherin, rom-1 is a retina-specific integral membrane protein localized to the photoreceptor disk rim. The two proteins are similarly oriented in the membrane, and each has a highly conserved (15/16 residues) cysteine- and proline-rich domain in the disk lumen. Although both rom-1 and peripherin form disulfide-linked dimers, they do not form heterodimers with each other, but appear to associate noncovalently. These results suggest both that rom-1 and peripherin are functionally related members of a new photoreceptor-specific protein family and that rom-1, like peripherin, is likely to be important to outer segment morphogenesis. The association of mutations in RDS with retinitis pigmentosa indicates that ROM1 is a strong candidate gene for human retinopathies.     

A method for developing high-density SNP maps and its application at the type 1 angiotensin II receptor (AGTR1) locus

Evaluating the potential genetic components of complex disease will likely be aided through the use of dense polymorphism maps. Previously, we reported evidence for linkage with diabetic nephropathy on chromosome 3q in a region encompassing the type 1 angiotensin II receptor (AGTR1) gene. To further investigate any role for this gene in disease onset, we set out to design a dense polymorphism map spanning the AGTR1 locus for the purpose of association studies. Toward this goal, we have developed a technique for rapid identification of polymorphisms in long stretches of genomic DNA. This approach uses long-range PCR, DNA pooling, and transposon-based DNA sequencing. Using this technique, we efficiently validated and genotyped 18 polymorphisms spanning the 60.5-kb AGTR1 locus. Our panel of polymorphisms has an average spacing of 3.2 kb and an average minor allele frequency of 24%.     

Kiss1和GPR54基因多态性与多囊卵巢综合征相关性分析

本研究旨在探讨Kiss1和GPR54基因多态性与多囊卵巢综合征的相关性。利用超声检查卵巢体积、血清睾酮、游离雄激素指数情况;临床评估患者身高(cm)和体重(kg)、BMI、静息血压、痤疮和黑棘皮病的分布;ELISA酶联免疫法检测血清中的kisspeptin和睾酮水平,使用Next generation sequencing方法(LGC group, Germany)对基因(Kiss1, GPR54)进行测序。结果显示,PCOS患者比对照组女性具有更高的BMI和mFG评分,PCOS患者血清Kisspeptin和睾酮浓度显著提高,且LH浓度也显著高于对照组(p<0.05)。GPR54和Kiss1 2个基因在患者体内存在多态性;测序分析结果显示GPR54基因存在的2个新的SNP位点(chr19:918686, A→G和chr19:918735, A→G),这2个新的多态性位于内含子区域(内含子2),Kiss1基因也存在两个SNP,位于非翻译变体5的末端(rs5780218)和外显子3 (rs4889),即GPR54基因存在A→G多态性,Kiss1基因为CTT→CT/G→C多态性,且相关性关联分析结果表明,GPR54基因型多态性(Chr19:918735)与PCOS风险增加相关(p<0.05);而Kiss1 SNP的基因型与PCOS风险之间没有关联。此外,PCOS与GPR54和Kiss1基因的单倍型没有显著关联。本研究推论对PCOS发生风险的遗传影响可能不仅是通过直接改变Kiss1/GPR54相互作用,而且还可能通过改变个体与环境因素的相互作用。     

New sights on the associations between the XRCC1 gene polymorphisms and hepatocellular carcinoma susceptibility

Studies investigating the relationships between the polymorphisms in the X-ray repair cross complementing 1 (XRCC1) gene and the susceptibility of hepatocellular carcinoma (HCC) remained controversial, therefore, we assessed this associations by metaanalysis and trial sequential analysis (TSA). PubMed, Embase, Google Scholar, Chinese National Knowledge Infrastructure and Baidu Scholar were comprehensively screened to retrieve relevant studies up to May 20, 2019. A total of 32 studies was included. Significant associations were discovered in the overall and subgroup analysis in these three polymorphisms. Interestingly, the decreased risk of HCC was detected in the Indians for the rs24587 polymorphism. TSA indicated the required information size for the rs25487 polymorphism were reached, but for the rs25489 and rs1799782 polymorphisms, more well-designed trials were required. Sensitivity analysis implied our results were stable; no publication bias was observed in the rs25487 and rs1799782 polymorphisms. The bioinformatic analysis indicate that the rs1799782 polymorphism is probably damaging and has an influence on the XRCC1 protein function. Our study indicated that the XRCC1 rs25487 was a risk factor for the susceptibility of HCC, which was verified by the TSA. In addition, the rs25489 and rs1799782 polymorphisms were associated with increased risk of HCC. In the subgroup analysis, increased risks were detected in some subgroups (in accordance with Hardy-Weinberg equilibrium, Chinese groups, Mongoloid subgroup, polymerase chain reaction-restriction fragment length polymorphisms and more than 300 subgroups), moreover, decreased HCC risk of the rs25487 polymorphism was firstly observed, which required further studies to verify.     

Identification of novel single nucleotide polymorphisms in the DGAT1 gene of buffaloes by PCR-SSCP

Diacylglycerol O-acyltransferase 1 (DGAT1) is a microsomal enzyme that catalyzes the final step of triglyceride synthesis. The DGAT1 gene is a strong functional candidate for determining milk fat content in cattle. In this work, we used PCR-SSCP (polymerase chain reaction-single-strand conformation polymorphism) and DNA sequencing to examine polymorphism in the region spanning exon 7 to exon 9 of the DGAT1 gene in Murrah and Pandharpuri buffaloes. Three alleles (A, B and C) and four novel single-nucleotide polymorphisms were identified in the buffalo DGAT1 gene. The frequencies of the alleles differed between the two buffalo breeds, with allele C being present in Murrah but not in Pandharpuri buffalo. The allele variation detected in this work may influence DGAT1 expression and function. The results described here could be useful in examining the association between the DGAT1 gene and milk traits in buffalo.     

Association analysis between canine behavioural traits and genetic polymorphisms in the Shiba Inu breed

The relationships between behavioural trait data and the genotype of 15 polymorphisms in eight neurotransmitter-related genes were analysed in 77 dogs of the Shiba Inu breed, an indigenous Japanese dog. The data were obtained from a 26-item questionnaire on the dog's behaviour, distributed to the dog's owners, through veterinary hospitals and the Shiba Inu breed magazine. A factor analysis of the questionnaire items extracted eight factors accounting for 66.8% of the variance. An association analysis between these factors and genetic polymorphisms indicated that the polymorphism of c.471T>C in the solute carrier family 1 ( neuronal/epithelial high-affinity glutamate transporter ) member 2 ( SLC1A2 ) gene was significantly associated with Factor 1, referred to as 'aggression to strangers'. This association remained stable in separate analyses of data from surveys obtained from the hospitals and those obtained from the magazine. The results suggest that the c.471T>C polymorphism is associated with some types of aggressive behaviour in the Shiba Inu. Further studies using other dog breeds are necessary to extend these findings to dogs in general.     

MC1R是控制鸡黑色素形成的候选主效基因

黑素皮质素受体1 (melanocortin 1-receptor, MC1R)基因是控制动物黑色素合成的重要基因.采用多聚酶链反应-单链构象多态性分析(PCR-SSCP)以及DNA测序的方法,在由丝羽乌骨鸡与明星肉鸡为亲本建立的中国农业大学资源家系群体鸡MC1R基因的编码区检测到3个单核苷酸多态位点,并对该单核苷酸多态性进行了分析.结果显示,鸡MC1R基因编码区引物3扩增片段多态性是由G→A（867位）点突变引起的,引物5扩增片段的多态性是由C→T（1 292位）与C→G（1 377位）两个点突变引起的,最后对单核苷酸多态性与肤色、肉色、胫色与内脏膜色等黑色素性状进行了卡方独立性分析,结果显示,MC1R基因编码区867处突变与鸡的肤色性状显著相关（P＜0.05）,1 292处突变与鸡的活体胫色性状显著相关（P＜0.05）,1 377处突变与鸡的肉色性状显著相关（P＜0.05）.研究表明,MC1R基因可能是鸡黑色素性状的主效基因或者与鸡控制黑色素性状的主效基因连锁.     

Genetic Variants in ADD1 Gene and their Associations with Growth Traits in Cattle

The α-adducin (ADD1) is a subunit of adducin which is a cytoskeleton heterodimeric protein. Adducin participates in oocytes chromosome meiosis of mice, prompting adducin has an effect on embryonic development. Adducin gene mutation has significantly functional change. So the present study was to identify and characterize polymorphisms within the coding region of the bovine ADD1 gene among different cattle breeds. Here, 11 novel single nucleotide polymorphisms (SNPs 1–11) were identified by DNA sequencing and polymerase chain reaction-single stranded conformational polymorphism, there were one synonymous mutation in exon 1 (SNP1); four missense mutations in exons 4, 7, and 8 (SNPs 3–6); and six mutations in introns 4, 12, 13, and 14 (SNPs 2, 7–10). The statistical analyses indicated that the some SNPs are associated with the growth traits (body length, body height, chest circumference, and hucklebone width) in Chinese Jiaxian cattle population. Our results provide evidence that polymorphisms in the ADD1 gene are associated with growth traits, and may be used for marker-assisted selection in beef cattle breeding program.     

Mutational screening of the CYP26A1 gene in patients with caudal regression syndrome

BACKGROUND: The retinoic acid (RA)-catabolizing enzyme Cyp26a1 plays an important role in protecting tailbud tissues from inappropriate exposure to RA. Cyp26a1-null animals exhibit caudal agenesis and spina bifida, imperforate anus, agenesis of the caudal portions of the digestive and urogenital tracts, and malformed lumbosacral skeletal elements. This phenotype closely resembles the most severe form of caudal agenesis in humans. In view of these findings, we investigated a potential involvement of the human CYP26A1 gene in the pathogenesis of caudal regression syndrome (CRS). METHODS: Mutational screening of 49 CRS patients and 132 controls was performed using denaturing high-performance liquid chromatography and sequencing. Differences in the genotype and allele frequency of each SNP were evaluated by chi(2) analysis. The biological significance of the intronic variants was investigated by transfection assays of mutant constructs and by analysis of the splicing patterns with RT-PCR. RESULTS: Mutational screening allowed us to identify 6 SNPs, 4 of which (447 C>G, 1134 G>A, IVS 1+10 G>C, and IVS 4+8 AG>GA) are new. In addition, we describe a novel 2-site haplotype consisting of the 2 intronic SNPs. Both single-locus and haplotype analyses revealed no association with increased risk for CRS. The consequences of the 2 intronic polymorphisms on the mRNA splicing process were also investigated. Moreover, using functional and computational methods we demonstrated that both of these intronic polymorphisms affect the intron splicing efficiency. CONCLUSIONS: Our research did not provide evidence that CYP26A1 has implications for the pathogenesis of human CRS. However, the relationship between CRS risk and the CYP26A1 genotype requires further study with a larger number of genotyped subjects.