Identification of complex vertebral malformation carriers in Chinese Holstein.

Complex vertebral malformation (CVM) is a monogenic autosomal recessive hereditary defect of Holstein dairy cattle. It is caused by a point mutation from G to T at the nucleotide position 559 in bovine solute carrier family 35, member 3 gene (SLC35A3), which changes the amino acid sequence of uridine 5'-diphosphate-N-acetylglucosamine transporter protein from a valine to a phenylalanine in position 180. The elite U.S. Holstein sire Penstate Ivanhoe Star was identified as the common ancestor of the current CVM carriers. Because his offspring, mainly those of Carlin-M Ivanhoe Bell, were used in many countries, CVM has potentially spread into China. In the present study, using the polymerase chain reaction-single-stranded conformational polymorphism (PCR-SSCP) technique, 10 CVM carriers were found among 68 at-risk Chinese Holstein bulls, and 282 carriers were found among 602 at-risk cows. The results of this study indicate that the CVM gene exists in the Chinese Holstein population.     

Morphological variation of "complex vertebral malformation" in Holstein calves.

A study was performed to investigate the morphological expression of the inherited syndrome "complex vertebral malformation" (CVM) in Holstein calves. A total of 107 late-term aborted, premature, or neonatal calves suspected of having CVM were necropsied and retrospectively analyzed for the causal mutation in the gene SLC35A3. Sixty-two calves were homozygous affected, 16 were heterozygous, and 29 were homozygous normal. Calves affected by CVM were growth retarded. Vertebral lesions identified by radiography were present in 61 cases, of which 58 also had costal malformation. Malformation of the head, primarily in the form of dysplasia or palatoschisis, was present in 15 cases. Bilateral symmetric flexion of the carpal and metacarpophalangeal joints was present in all cases, whereas posterior arthrogryposis was found in 54 cases. Interventricular septal defects occurred in 33 calves, often in combination with other cardiac malformations. A wide spectrum of additional malformations was found. Other congenital syndromes were in most cases distinguishable from CVM on a morphological basis. However, a calf with a prenatal infection with bovine virus diarrhea virus constituted a phenocopy. The study demonstrated that the morphological expression of CVM is wide, but certain aspects, i.e., growth retardation, vertebral malformation, and symmetric arthrogryposis, are almost constant findings. However, cases without vertebral defects and phenocopies constitute a diagnostic problem. A presumptive diagnosis of CVM can in most cases be based on necropsy findings combined with information on descent and paternal CVM genotype, whereas a definitive diagnosis requires genotyping.     

A novel method for rapid and reliable detection of complex vertebral malformation and bovine leukocyte adhesion deficiency in Holstein cattle

Background: Complex vertebral malformation (CVM) and bovine leukocyte adhesion deficiency (BLAD) are two autosomal recessive lethal genetic defects frequently occurring in Holstein cattle, identifiable by single nucleotide polymorphisms. The objective of this study is to develop a rapid and reliable genotyping assay to screen the active Holstein sires and determine the carrier frequency of CVM and BLAD in Chinese dairy cattle population. Results: We developed real-time PCR-based assays for discrimination of wild-type and defective alleles, so that carriers can be detected. Only one step was required after the DNA extraction from the sample and time consumption was about 2 hours. A total of 587 Chinese Holstein bulls were assayed, and fifty-six CVM-carriers and eight BLAD-carriers were identified, corresponding to heterozygote carrier frequencies of 9.54% and 1.36%, respectively. The pedigree analysis showed that most of the carriers could be traced back to the common ancestry, Osborndale Ivanhoe for BLAD and Pennstate Ivanhoe Star for CVM. Conclusions: These results demonstrate that real-time PCR is a simple, rapid and reliable assay for BLAD and CVM defective allele detection. The high frequency of the CVM allele suggests that implementing a routine testing system is necessary to gradually eradicate the deleterious gene from the Chinese Holstein population.     

部分中国荷斯坦种公牛脊柱畸形综合征携带状况的检测和分析

摘本研究旨在对部分中国荷斯坦种公牛脊柱畸形综合征(Complex vertebral malformation,CVM)致病基因的携带状况进行筛查.应用错配PCR突变分析技术(PCR mismatch amplification mutation assay,PCR-MAMA)建立了针对CVM致病基因的特异性检测方法.利用PCR-MAMA法检测了154头荷斯坦种公牛,发现了24头CVM阳性个体,阳性率为15.58％.结果显示,应对中国荷斯坦种公牛进行全面的针对CVM的检测.     

A novel method for rapid and reliable detection of complex vertebral malformation and bovine leukocyte adhesion deficiency in Holstein cattle

Background

Complex vertebral malformation (CVM) and bovine leukocyte adhesion deficiency (BLAD) are two autosomal recessive lethal genetic defects frequently occurring in Holstein cattle, identifiable by single nucleotide polymorphisms. The objective of this study is to develop a rapid and reliable genotyping assay to screen the active Holstein sires and determine the carrier frequency of CVM and BLAD in Chinese dairy cattle population.

Results

We developed real-time PCR-based assays for discrimination of wild-type and defective alleles, so that carriers can be detected. Only one step was required after the DNA extraction from the sample and time consumption was about 2 hours. A total of 587 Chinese Holstein bulls were assayed, and fifty-six CVM-carriers and eight BLAD-carriers were identified, corresponding to heterozygote carrier frequencies of 9.54% and 1.36%, respectively. The pedigree analysis showed that most of the carriers could be traced back to the common ancestry, Osborndale Ivanhoe for BLAD and Pennstate Ivanhoe Star for CVM.

Conclusions

These results demonstrate that real-time PCR is a simple, rapid and reliable assay for BLAD and CVM defective allele detection. The high frequency of the CVM allele suggests that implementing a routine testing system is necessary to gradually eradicate the deleterious gene from the Chinese Holstein population.     

Neospora caninum and complex vertebral malformation as possible causes of bovine fetal mummification

Bovine neosporosis, caused by Neospora caninum is a leading cause of abortion in cattle. We postulated that neosporosis could lead to fetal death and mummification. Fifteen mummified fetuses were tested by polymerase chain reaction (PCR) for the mutation in the bovine SLC35A3 gene that causes complex vertebral malformation (CVM) and the pNC-5 gene which identifies N. caninum infection. DNA was extracted from the mummified fetuses and the sex of the mummies was determined by PCR. The CVM mutation was not detected in the mummified fetuses, but 4 fetuses were positive for N. caninum infection. The ages of the mummies with N. caninum infection were 100, 113, 123, and 131 days. Twelve of the 15 mummified fetuses were male. To our knowledge, this is the first detection of N. caninum as a possible cause of bovine fetal mummification.     

Complex vertebral malformation in a holstein calf: report of a case in the USA.

Complex vertebral malformation (CVM), a familial syndrome of Holstein calves, has been reported in aborted fetuses and in prematurely born, stillborn, and neonatal calves. Affected calves have anomalies in the vertebral column, including hemivertebrae, fused and misshapen vertebrae and ribs, scoliosis, and vertebral synostosis. Concurrent low body weight, symmetrical arthrogryposis, and cardiac anomalies have been documented in affected calves. The syndrome was identified and characterized in Holstein cattle in Denmark; however, a global distribution of this genetic disorder is likely based on identification of common ancestral sires widely used for artificial insemination. This is the first documented case of CVM in a Holstein calf in the USA.     

Use of a polymerase chain reaction for detection of Mycoplasma dispar in the nasal mucus of calves.

A polymerase chain reaction (PCR) assay was developed for the detection of Mycoplasma dispar in nasal mucus samples collected from calves. The target DNA sequence was the 16S rRNA gene, and the fragment was selected within a region of high polymorphism. The specificity and detection limit of the method were determined. This method was then used for the detection of M. dispar in nasal swabs collected from 301 calves, including 155 clinical samples from animals showing signs of respiratory disease and 146 samples from healthy animals. PCR with generic primers was applied to the detection of Mollicutes, followed by the detection of M. dispar. Mollicutes were detected in 52.05% of clinical samples from healthy animals and in 90.96% of samples from sick animals. Mycoplasma dispar was detected in 6.16% of healthy animals and in 34.84% of sick animals. The PCR assay was useful in verifying the presence of M. dispar in calves and may be a useful tool in monitoring this mycoplasma in cattle herds.     

羊流产衣原体主要外膜蛋白基因的克隆与序列分析

将自行分离、传代培养的内蒙古地区山羊流产衣原体按常规方法分离纯化，提取衣原体基因组DNA作为模板，按照国外发表的衣原体主要外膜蛋白（MOMP）基因两端序列设计合成一对引物，用PCR方法扩增出－1.17Kb的DNA片段。利用引物上预先设计的限制性内切酶位点，将扩增片段经限制性内切酶切割后连接到pUC19质粒相应位点上，转化大肠杆菌DH5α，筛选重组子。经PCR检测和内切酶分析鉴定含MOMP基因的重组子质粒。对克隆处段进行全序列分析，结果证明得到MOMP全编码序列的基因克隆。本株衣原体MOMP编码区由1170个核苷酸组成。序列比较发现本株衣原体的MOMP基因与国外的羊流产衣原体S26／3株的MOMP基因完全相同，与B577株的MOMP基因仅有一个核苷酸的同义变异。     

Evaluation of the inheritance of the complex vertebral malformation syndrome by breeding studies

To investigate the congenital complex vertebral malformation syndrome (CVM) in Holstein calves, two breeding studies were performed including 262 and 363 cows, respectively. Cows were selected from the Danish Cattle Database based on pedigree and insemination records. Selected cows were progeny of sires with an established heterozygous CVM genotype and pregnant after insemination with semen from another sire with heterozygous CVM genotype. Following calving the breeders should state, if the calf was normal and was requested to submit dead calves for necropsy. In both studies, significantly fewer CVM affected calves than expected were obtained; a finding probably reflecting extensive intrauterine mortality in CVM affected foetuses. The findings illustrate increased intrauterine mortality as a major potential bias in observational studies of inherited disorders.     

Genetic Description of Factor XI Deficiency in Holstein Semen in Western Japan

Factor XI deficiency was detected in Holstein cows and mummified foetuses in Japan; however, no report is available about the occurrence of Factor XI deficiency in Holstein semen in Japan. Five hundred cows in twelve dairy farms in Hiroshima Prefecture, Japan were under the study. Genomic DNA was extracted from the cows using a commercial DNA kits and screened to Factor XI mutation. Based on the information of the carrier cows found in the cattle population, four Holstein bulls were analysed for Factor XI mutation. DNA was extracted from bull's semen using phenol chloroform method. Extracted genomic DNA of the bull's semen was typed for Factor XI using specific polymerase chain reaction (PCR) primers. The resultant PCR was sequenced using big dye terminator sequencing method. The pedigree of the bulls was investigated. Furthermore, the inheritance of Factor XI mutation to next generation was estimated. Out of the 500 cows, five were heterozygous to Factor XI. Moreover, out of the four bulls, one was found to carry the mutation of Factor XI; it was also a complex vertebral malformation (CVM) carrier. In DNA sequencing, the insertion mutation of 76 bp of poly-adenine that characterizes the Factor XI deficiency was detected in the carrier bull as well as the carrier cows. Pedigree analysis of the carrier bull revealed that his father and mother ID were 2247419A and 14189172A, respectively, that originated from USA Holstein. Out of six daughter cows born to the carrier bull, one cow (16.6%) inherited Factor XI mutation, while three of them (50.0%) inherited CVM mutation. Autosomal recessive genes that affect cow's reproduction have a particular concern to dairy industry. To our knowledge this is the first report of Factor XI mutation in Holstein semen in Japan.     

荷斯坦牛脊椎畸形综合征分子诊断方法的建立与应用

脊椎畸形综合征(Complex Vertebral Malformation,CVM)是由常染色体上SLC35A3基因单碱基突变(G→T)引起的隐性遗传疾病,该基因隐性纯合(CV/CV)时奶牛致死,但CVM携带者表现正常,所以CVM携带者公牛可以通过人工授精技术传播CVM缺陷基因。本研究自行设计检测CVM特异性PCR引物,扩增长度为173bp,然后利用PCR-SSCP方法对186个公牛样品和140个母牛样品进行了检测分析,该方法简便快捷、准确率高,使用样品宽泛,适合大样本筛选。研究结果表明,在所检测的样本中,荷斯坦种公牛和母牛CVM携带率分别为11.3%和12.1%,并通过系谱追踪发现,CVM遗传缺陷的共同祖先是美国名牛"Penstate Ivanhoe Star"(USA.1441440,CV)。通过剔除CVM携带者公牛可以有效地控制CVM遗传缺陷,但是,我国许多CVM携带者公牛冻精依然在商业化使用,所以,有效地监控CVM携带者在奶牛群中的状况对CVM防控计划是有益的。     

Screening for bovine leukocyte adhesion deficiency,deficiency of uridine monophosphate synthase,complex vertebral malformation,bovine citrullinaemia,and factor XI deficiency in Holstein cows reared in Turkey

Background

Bovine leukocyte adhesion deficiency (BLAD), deficiency of uridine monophosphate synthase (DUMPS), complex vertebral malformation (CVM), bovine citrullinaemia (BC) and factor XI deficiency (FXID) are autosomal recessive hereditary disorders, which have had significant economic impact on dairy cattle breeding worldwide. In this study, 350 Holstein cows reared in Turkey were screened for BLAD, DUMPS, CVM, BC and FXID genotypes to obtain an indication on the importance of these defects in Turkish Holsteins.

Methods

Genomic DNA was obtained from blood and the amplicons of BLAD, DUMPS, CVM, BC and FXID were obtained by using PCR. PCR products were digested with TaqI, AvaI and AvaII restriction enzymes for BLAD, DUMPS, and BC, respectively. These digested products and PCR product of FXID were analyzed by agarose gel electrophoresis stained with ethidium bromide. CVM genotypes were detected by DNA sequencing. Additionally, all genotypes were confirmed by DNA sequencing to determine whether there was a mutant allele or not.

Results

Fourteen BLAD, twelve CVM and four FXID carriers were found among the 350 Holstein cows examined, while carriers of DUMPS and BC were not detected. The mutant allele frequencies were calculated as 0.02, 0.017, and 0.006 for BLAD, CVM and FXID, respectively with corresponding carrier prevalence of 4.0% (BLAD), 3.4% (CVM) and 1.2% (FXID).

Conclusion

This study demonstrates that carriers of BLAD, CVM and FXID are present in the Turkish Holstein population, although at a low frequency. The actual number of clinical cases is unknown, but sporadic cases may appear. As artificial insemination is widely used in dairy cattle breeding, carriers of BLAD, CVM and FXID are likely present within the population of breeding sires. It is recommended to screen breeding sires for these defective genes in order to avoid an unwanted spread within the population.     

Complex vertebral malformation in a stillborn Holstein calf in Japan

A female stillborn Holstein calf with shortened cervical and thoracic regions, protrusion of the tongue, and bilateral symmetric flexural contraction of the anterior limbs was delivered on gestation day 281. Multiple hemivertebrae, fused and misshaped vertebrae, synostosis and scoliosis of cervical, thoracic and lumbar vertebral column were found in the affected calf by radiographic and computed tomographic (CT) analysis. Ten pairs of ribs were present and the sternum consisted of 9 sternebrae. Multiple morphologic abnormalities including fusion, malformation, and displacement, were found in the ribs and sternum. Cardiac anomalies, including atrial septal defect and hypertrophy of right ventricle, were observed. DNA-polymerase chain reaction (PCR) analysis demonstrated that amplified product from the liver DNA of the affected calf had identical pattern to that associated with complex vertebral malformation (CVM) of Holstein calves and that her dam was a heterozygous carrier of CVM. The affected calf was diagnosed as having CVM based on the DNA-PCR results and the characteristic findings, and was recorded as a first documentation of CVM confirmed in a Holstein calf in Japan.     

天津地区荷斯坦公牛CVM、DUMPS和CN遗传缺陷检测

本文旨在研究天津地区中国荷斯坦公牛脊椎畸形综合征（Complex vertebral malformation,CVM）、尿苷酸合酶缺乏症（Deftciencv of uridine monophospham synchase,DUMPS）和瓜氨酸血症（Citrullinemia,CN）3种遗传缺陷的携带者比率及系谱来源。通过PIRA—PCR和PCR—RFLP方法分别对天津奶牛发展中心参加全国青年公牛联合后裔测定和国家良种补贴项目的110头荷斯坦公牛进行了CVM、DUMPS和CN三种遗传缺陷检测。共发现6头CVM隐性有害基因携带公牛,携带者比例为5．45％,隐性有害等位基因频率为2．72％。经过系谱分析,其中4头CVM携带者均为美国公牛Carlin—MIvanhoeBell的后代,另外2头因系谱不完整而无法查询。未检测到DuMPs和CN隐性有害基因携带者。基于此,我国有必要尽快建立荷斯坦牛隐性遗传缺陷监控体系并进行系谱标注,避免携带公牛进入后裔测定和良种补贴项目,以逐步降低我国奶牛群体中遗传缺陷隐性等位基因频率。     

Identification of porcine intestinal spirochetes by PCR-restriction fragment length polymorphism analysis of ribosomal DNA encoding 23S rRNA

The Brachyspira (formerly Serpulina) species rrl gene encoding 23S ribosomal RNA (rRNA) was used as a target for amplification of a 517bp DNA fragment by polymerase chain reaction (PCR). The primers for PCR amplification had sequences that were conserved among Brachyspira 23S rRNA gene and were designed from nucleotide sequences of Brachyspira hyodysenteriae, Serpulina intermedia, Brachyspira innocens and Brachyspira pilosicoli available from the GenBank database. Digestion of PCR-generated products from reference and field isolates of swine intestinal spirochetes with restriction enzymes Taq I and Alu I revealed five restriction fragment length polymorphism (RFLP) patterns. Each RFLP pattern corresponded to previously established genetic groups including B. hyodysenteriae (I), S. intermedia/B. innocens (II), Brachyspira murdochii (III), B. pilosicoli (IV) and B. alvinipulli (V). The 23S rRNA PCR/RFLP provided a relatively simple genotypic method for identification of porcine pathogenic B. hyodysenteriae and B. pilosicoli.     

A specific PCR to differentiate between gE negative vaccine and wildtype bovine herpesvirus type 1 strains

In the context of infectious bovine rhinotracheitis (IBR) control programmes using glycoprotein E (gE) deleted marker vaccines, a PCR assay was developed to allow the genotypic differentiation between wildtype bovine herpesvirus type 1 (BoHV-1) and gE negative strains. This assay is based on the PCR amplification of a 281 bp DNA fragment within the gE gene. The specificity of the amplification was confirmed by restriction endonuclease analysis and nucleotide sequencing of the PCR product. Its ability to determine the gE genotype of BoHV-1 strains was demonstrated on isolates coming from 20 experimental calves infected with four different BoHV-1 strains. This PCR assay may be a useful tool for monitoring the spread of live marker vaccine and the gE genotype of viral field isolates.     

猪TLR2基因Bi-PASA遗传标记的建立及多态性研究

根据人和小鼠TLR2基因序列设计了特异性PCR引物,优化PCR条件后扩增到中国梅山猪、欧洲约克夏猪、PIC-2系及PIC-3系商品猪的TLR2基因690 bp的基因片段,并对其进行序列分析。序列分析结果显示,猪TLR2基因多态性程度低,发现在猪TLR2基因编码区第1 255位点上存在1个单碱基突变位点。利用双向特定等位基因PCR扩增法(B i-PASA)建立了检测猪TLR2基因变异的遗传标记。利用猪TLR2基因的B i-PASA标记,分析了TLR2基因在大河乌猪、撒坝猪和黔邵花猪中的基因频率和多态性。研究建立的B i-PASA遗传标记和基因变异信息,将为进一步分析猪TLR2基因变异与疾病抵抗力及经济性状的相关分析提供基础资料。