Cloning, mapping and mutation analysis of human gene GJB5 encoding gap junction protein β-5

By homologous EST searching and nested PCR a new human gene GJB5 encoding gap junction protein β-5 was identified. GJB5 was genetically mapped to human chromosome 1p33-p35 by FISH. RT-PCR revealed that it was expressed in skin, placenta and fetal skin. DNA sequencing of GJB5 was carried out in 142 patients with sensorineural hearing impairment and probands of 36 families with genetic diseases, including erythrokeratodermia (5 families), Charcot-Marie-Tooth disease (13), ptosis (4), and retinitis pigmentosa and deafness (14). Two missense mutations (686A→G, H229R; 25C→T, L9F) were detected in two sensorineural hearing impairment families. A heterologous deletion of 18 bp within intron was found in 3 families with heredity hearing impairment, and in one of the 3 families, a missense mutation (R265P) was identified also. But the deletion and missense mutation seemed not segregating with hearing impairment in the family. No abnormal mRNA or mRNA expression was detected in deletion carriers by RT-PCR analysis in skin tissue. Mutation analysis in 199 unaffected individuals revealed that two of them were carriers with the same 18 bp deletion.     

Cloning, sequencing and identification of single nucleotide polymorphisms of partial sequence on the porcine CACNA1S gene

CACNA1S gene encodes the α1 subunit of the calcium channel. The mutation of CACNA1S gene can cause hypokalemic periodic paralysis (HypoKPP) and maliglant hyperthermia synarome (MHS) in hu-man beings. Current research on CACNA1S was mainly in human being and model animal, but rarely in livestock and poultry. In this study, Yorkshire pigs (23), Pietrain pigs (30), Jinhua pigs (115) and the second generation (126) of crossbred of Jinhua and Pietrain were used. Primers were designed ac-cording to the sequence of human CACNA1S gene and PCR was carried out using pig genome DNA. PCR products were sequenced and compared with that of human, and then single nucleotide poly-morphisms (SNPs) were investigated by PCR-SSCP, while PCR-RFLP tests were performed to validate the mutations. Results indicated: (1) the 5211 bp DNA fragments of porcine CACNA1S gene were ac-quired (GenBank accession number: DQ767693 ) and the identity of the exon region was 82.6% be-tween human and pig; (2) fifty-seven mutations were found within the cloned sequences, among which 24 were in exon region; (3) the results of PCR-RFLP were in accordance with that of PCR-SSCP. Ac-cording to the EST of porcine CACNA1S gene published in GenBank (Bx914582, Bx666997), 8 of the 11 SNPs identified in the present study were consistent with the base difference between two EST frag-ments.     

Cloning, mapping and mutation analysis of human gene GJB5 encoding gap junction protein β-5

By homologous EST searching and nested PCR a new human gene GJB5 encoding gap junction protein p-5 was identified. GJB5 was genetically mapped to human chromosome 1p33-p35 by FISH. RT-PCR revealed that it was expressed in skin, placenta and fetal skin. DMA sequencing of GJB5 was carried out in 142 patients with sensorineural hearing impairment and probands of 36 families with genetic diseases, including erythrokeratodermia (5 families), Char-cot-Marie-Tooth disease (13), ptosis (4), and retinitis pigmentosa and deafness (14). Two mis-sense mutations (686A→G, H229R; 25C→T, L9F) were detected in two sensorineural hearing impairment families. A heterologous deletion of 18 bp within intron was found in 3 families with heredity hearing impairment, and in one of the 3 families, a missense mutation (R265P) was identified also. But the deletion and missense mutation seemed not segregating with hearing impairment in the family. No abnormal mRNA or mRNA expression was detected in deletion carriers by RT-PCR anal     

Molecular Evolution of the TAC1 Gene from Rice （Oryza sativa L.）

Tiller angle is a key feature of the architecture of cultivated rice(Oryza sativa),since it determines planting density and influences rice yield.Our previous work identified Tiller Angle Control 1(TACl) as a major quantitative trait locus that controls rice tiller angle.To further clarify the evolutionary characterization of the TACl gene,we compared a TACl-containing 3164-bp genomic region among 113 cultivated varieties and 48 accessions of wild rice,including 43 accessions of O.rufipogon and five accessions of O.nivara.Only one single nucleotide polymorphism(SNP),a synonymous substitution,was detected in TACl coding regions of the cultivated rice varieties, whereas one synonymous and one nonsynonymous SNP were detected among the TACl coding regions of wild rice accessions.These data indicate that little natural mutation and modification in the TACl coding region occurred within the cultivated rice and its progenitor during evolution.Nucleotide diversities in the TACl gene regions of O.sativa and O.rufipogon of 0.00116 and 0.00112,respectively, further indicate that TACl has been highly conserved during the course of rice domestication.A functional nucleotide polymorphism (FNP) of TACl was only found in the japonica rice group.A neutrality test revealed strong selection,especially in the 3’-flanking region of the TACl coding region containing the FNP in the japonica rice group.However,no selection occurred in the indica and wild-rice groups.A phylogenetic tree derived from TACl sequence analysis suggests that the indica and japonica subspecies arose independently during the domestication of wild rice.     

Cloning of fatty acid elongase1 gene and molecular identification of A and C genome in Brassica species

The fatty acid elongase 1 (FAE1) genes of Brassic napus were cloned from two cultivars, i.e. Zhong- shuan No. 9 with low erucic acid content, and Zhongyou 821 with high erucic acid content, using the degenerate PCR primers. The sequence analysis showed that there was no intron within the FAE1 genes. The FAE1 genes from Zhongyou 821 contained a coding sequence of 1521 nucleotides, and those cloned from Zhongshuan No. 9 contained a 1517 bp coding sequence. Alignment of the FAE1 sequences from Brassica rapa, B. oleracea and B. napus detected 31 single nucleotide polymorphic sites (2.03%), which resulted in 7 amino-acid substitutions. Further analysis indicated that 19 SNPs were genome-specific, of which, 95% were synonymous mutations. The nucleotide substitution at po- sition 1217 in the FAE1 genes led to a specific site of restricted cleavage. An AvrII cleavage site was present only in the C genome genes and absent in the A genome FAE1 genes. Digestion profile of the FAE1 sequences from B. rapa, B. oleracea and B. napus produced with AvrII confirmed that the FAE1 genes of B. oleracea origin was recognized and digested, while that of B. rapa origin could not. The results indicated that by AvrII cleavage it was possible to distinguish B. rapa from B. oleracea and be- tween the A and C genome of B. napus. In addition, the FAE1 genes could be used as marker genes to detect the pollen flow of B. napus, thus providing an alternative method for risk assessment of gene flow.     

Characterization of 5‘—proximal sequence of mouse GABA transporter gene （GAT—1）

The cDNA molecule encoding the mouse GABA transporter gene(GAT-1) was used as probe for selecting GAT-1 gene from mouse genomic library.A positive clone,harboring the whole open reading frame of the GAT-1 protein and designated as MGABAT-G,was fished out from the library,the 5‘ proximal region and intron 1 were sequenced and analysed,and low homology was found in the above region between GAT-1 genes from mouse and human except some short conserved sequences.The DNA-protein interactions between DNA fragments containing the conserved sequences in the 5‘ proximal region and nuclear proteins from different tissues of mouse were studied by means of gel-shift assay,and Southern-Western blot.The results indicate a possible positive-negative regulation mode controlling the expression of the mouse GAT-1 gene.     

Expression of. Arabidopsis tryptophan biosynthetic pathway genes: effect of the 5'' coding region of phosphoribosylanthranilate isomerase gene

There are three non-allelic isogenes encoding phosphoribosylanthranilate isomerase (PAI) in Arabidopsis thaliana. The expression plasmids were constructed by fusion of the GUS reporter gene to the three PAI promoters with or without the 5' region encoding PAI N-terminal polypeptides and transferred into Arabidopsis plants by Agrobacterium tumefaciens. Analysis of GUS activity revealed that the PAI 5' coding region was necessary for high expression of GUS activity. GUS activity in transgenic plants transformed with the expression plasmids containing the 5' coding region of PAI1 or PAI3 was 60—100-fold higher than that without the corresponding 5' region. However, the effect of 5' coding region of PAI2 gene on the GUS activity was very small (only about 1 time difference). The GUS histochemical staining showed a similar result as revealed by GUS activity assay. It was expressed in the mesophyll cells and guard cells, but not in the epidermic cells, indicating that the N-terminal polypeptides encoded by t     

Tumor suppressor gene PTEN affects anoikis via both PKB and FAK in human lung carcinoma cell lines

PTEN was identified in 1997 as a new tumor suppressor gene on human chromosome 10q23, deletions and mutations of this gene were associated with a variety of human cancers such as glioblastoma and prostate cancer. In this study Northern blot analysis was carried out and one major band at 2 kb region was observed in all 8 HLCC samples, consistent with previous reports. The result showed that the PTEN gene were expressed and its mRNA level similar in all cell lines tested. To determine whether the PTEN mRNA level reflects the parallel level of protein, the level of PTEN protein was examined by Western blot.PTEN protein level was high in H460 and detectable in A549, A4, A7, L1 cells, not detectable in 95C, 95D, A1     

Alternative splicing and expression profile analysis of expressed sequence tags in domestic pig

Domestic pig （Sus scrofa domestica） is one of the most important mammals to humans. Alternative splicing is a cellular mechanism in eukaryotes that greatly increases the diversity of gene products. Expression sequence tags （ESTs） have been widely used for gene discovery, expression profile analysis, and alternative splicing detection. In this study, a total of 712,905 ESTs extracted from 101 different nonnormalized EST libraries of the domestic pig were analyzed. These EST libraries cover the nervous system, digestive system, immune system, and meat production related tissues from embryo, newborn, and adult pigs, making contributions to the analysis of alternative splicing variants as well as expression profiles in various stages of tissues. A modified approach was designed to cluster and assemble large EST datasets, aiming to detect alternative splicing together with EST abundance of each splicing variant. Much efforts were made to classify alternative splicing into different types and apply different filters to each type to get more reliable results. Finally, a total of 1,223 genes with average 2.8 splicing variants were detected among 16,540 unique genes. The overview of expression profiles would change when we take alternative splicing into account.     

PAP-1, the mutated gene underlying the RP9 form of dominant retinitis pigmentosa, is a splicing factor

PAP-1 is an in vitro phosphorylation target of the Pim-1 oncogene. Although PAP-1 binds to Pim-1, it is not a substrate for phosphorylation by Pim-1 in vivo. PAP-1 has recently been implicated as the defective gene in RP9, one type of autosomal dominant retinitis pigmentosa (adRP). However, RP9 is a rare disease and only two missense mutations have been described, so the report of a link between PAP-1 and RP9 was tentative. The precise cellular role of PAP-1 was also unknown at that time. We now report that PAP-1 localizes in nuclear speckles containing the splicing factor SC35 and interacts directly with another splicing factor, U2AF35. Furthermore, we used in vitro and in vivo splicing assays to show that PAP-1 has an activity, which alters the pattern of pre-mRNA splicing and that this activity is dependent on the phosphorylation state of PAP-1. We used the same splicing assay to examine the activities of two mutant forms of PAP-1 found in RP9 patients. The results showed that while one of the mutations, H137L, had no effect on splicing activity compared with that of wild-type PAP-1, the other, D170G, resulted in both a defect in splicing activity and a decreased proportion of phosphorylated PAP-1. The D170G mutation may therefore cause RP by altering splicing of retinal genes through a decrease in PAP-1 phosphorylation. These results demonstrate that PAP-1 has a role in pre-mRNA splicing and, given that three other splicing factors have been implicated in adRP, this finding provides compelling further evidence that PAP-1 is indeed the RP9 gene.     

Mutational analysis of the rhodopsin gene in Chinese ADRP families by conformation sensitive gel electrophoresis

Retinitis pigmentosa is a very heterogeneous group of retinal degenerations, with multiple genes identified in each mode of inheritance. For autosomal dominant retinitis pigmentosa (ADRP), the most common gene is the rhodopsin (RHO) gene, mutations in which contribute to about 25% of ADRP in Caucasian population. To investigate the frequency and pattern of RHO point mutations in Chinese patients with ADRP, we have screened the five coding exons and splice sites of the RHO gene in 50 unrelated probands from Chinese ADRP families and 100 normal controls to identify disease-associated mutations, using conformation sensitive gel electrophoresis (CSGE) and direct DNA sequencing. Two RHO mutations, Pro347Leu and Pro327 (1-bp del), were identified each in one family, thus the frequency of RHO mutations among ADRP families in this study is less than 14% (2/50=4%, 95% confidence interval: 1-14%), lower than that in Europe and North America, which may reflect an ethnic difference between Chinese and Caucasian populations. Loss of all phosphorylation sites at the C-terminus and a highly conserved sequence QVS(A)PA may occur because of Pro327(1-bp del). CSGE was found to be a sensitive, simple and practical method for the screening of a large number of samples under highly reproducible conditions, and could be utilized in routine molecular diagnostic laboratories.     

CDH23 mutation and phenotype heterogeneity: a profile of 107 diverse families with Usher syndrome and nonsyndromic deafness

Usher syndrome type I is characterized by congenital hearing loss, retinitis pigmentosa (RP), and variable vestibular areflexia. Usher syndrome type ID, one of seven Usher syndrome type I genetic localizations, have been mapped to a chromosomal interval that overlaps with a nonsyndromic-deafness localization, DFNB12. Mutations in CDH23, a gene that encodes a putative cell-adhesion protein with multiple cadherin-like domains, are responsible for both Usher syndrome and DFNB12 nonsyndromic deafness. Specific CDH23 mutational defects have been identified that differentiate these two phenotypes. Only missense mutations of CDH23 have been observed in families with nonsyndromic deafness, whereas nonsense, frameshift, splice-site, and missense mutations have been identified in families with Usher syndrome. In the present study, a panel of 69 probands with Usher syndrome and 38 probands with recessive nonsyndromic deafness were screened for the presence of mutations in the entire coding region of CDH23, by heteroduplex, single-strand conformation polymorphism, and direct sequence analyses. A total of 36 different CDH23 mutations were detected in 45 families; 33 of these mutations were novel, including 18 missense, 3 nonsense, 5 splicing defects, 5 microdeletions, and 2 insertions. A total of seven mutations were common to more than one family. Numerous exonic and intronic polymorphisms also were detected. Results of ophthalmologic examinations of the patients with nonsyndromic deafness have found asymptomatic RP-like manifestations, indicating that missense mutations may have a subtle effect in the retina. Furthermore, patients with mutations in CDH23 display a wide range of hearing loss and RP phenotypes, differing in severity, age at onset, type, and the presence or absence of vestibular areflexia.     

Identification of alternatively spliced dab1 isoforms in zebrafish

We have investigated the genomic organization, the occurrence of alternative splicing and the differential expression of the zebrafish disabled1 (dab1) gene. Dab1 is a key effector of the Reelin pathway, which regulates neuronal migration during brain development in vertebrates. The coding region of the zebrafish dab1 gene spans over 600 kb of genomic DNA and is composed of 15 exons. Alternative splicing in a region enriched for tyrosine residues generates at least three different isoforms. These isoforms are developmentally regulated and show differential tissue expression. Comparison with mouse and human data shows an overall conservation of the genomic organization with different alternative splicing events generating species-specific isoforms. Because these alternative splicing events give rise to isoforms with different numbers of phosphorylateable tyrosines, we speculate that alternative splicing of the dab1 gene in zebrafish and in other vertebrates regulates the nature of the cellular response to the Reelin signal.Electronic supplementary material Supplementary material is available for this article at and accessible for authorised users.     

Identification of 51 novel exons of the Usher syndrome type 2A (USH2A) gene that encode multiple conserved functional domains and that are mutated in patients with Usher syndrome type II

The USH2A gene is mutated in patients with Usher syndrome type IIa, which is the most common subtype of Usher syndrome and is characterized by hearing loss and retinitis pigmentosa. Since mutation analysis by DNA sequencing of exons 1-21 revealed only ~63% of the expected USH2A mutations, we searched for so-far-uncharacterized exons of the gene. We identified 51 novel exons at the 3' end of the gene, and we obtained indications for alternative splicing. The putative protein encoded by the longest open reading frame harbors, in addition to the known functional domains, two laminin G and 28 fibronectin type III repeats, as well as a transmembrane region followed by an intracellular domain with a PDZ-binding domain at its C-terminal end. Semiquantitative expression profile analysis suggested a low level of expression for both the long and the short isoform(s) and partial overlap in spatial and temporal expression patterns. Mutation analysis in 12 unrelated patients with Usher syndrome, each with one mutation in exons 1-21, revealed three different truncating mutations in four patients and two missense mutations in one patient. The presence of pathogenic mutations in the novel exons indicates that at least one of the putative long isoforms of the USH2A protein plays a role in both hearing and vision.