The sequence of a porcine cDNA encoding α-lactalbumin

A cDNA clone encoding porcine α-lactalbumin (αLA) was isolated and sequenced. The longest clone was 688 nucleotides (nt) long and encoded a preprotein of 141 amino acids (aa) including a leader peptide of 19 aa. The porcine cDNA exhibited a nt similarity of between 72.2%–83.5% to other αLA cDNAs and an aa similarity of between 50.8%–85.2% with other αLA aa sequences. The derived aa sequence varied at three positions from a previously reported sequence for porcine αLA obtained by direct aa sequencing.     

Cloning, Expression, and Physical Mapping of the 3β-Hydroxysteroid Dehydrogenase Gene Cluster (HSD3BP1–HSD3BP5) in Human

Seven members of the human 3β-hydroxysteroid dehydrogenase (3β-HSD) gene family (HGMW-approved symbols HSD3BP1–HSD3BP5) have been cloned and physically mapped. HSD3B1 and 2 express 3β-HSD enzymes; HSD3Bψ1–5 are unprocessed pseudogenes that are closely related to HSD3B1 and 2 but contain no corresponding open reading frames. mRNA is expressed from ψ4 and ψ5 in several tissues, but with altered splice sites that disrupt reading frames. A 0.5-Mb contig of 3 yeast artificial chromosome and 32 bacterial artificial chromosome genomic clones contained no additional members of the gene family. The seven genes and pseudogenes mapped within 230 kb in the order HSD3Bψ5–ψ4–ψ3–HSD3B1–ψ1–ψ2–HSD3B2. HSD3B1 and 2 are in direct repeat, 100 kb apart. Six HSD3B2 mutations involve substitutions that are present in several of the pseudogenes. In four cases, mutations arose in CpG sites that are conserved within the gene cluster. The tendency for CpG sites to mutate by transition provides an adequate explanation for these HSD3B2 mutations, which are unlikely to be due to recombination or conversion within the gene family.     

Functional analysis of linker insertions and point mutations in the α-Amy2/54 GA-regulated promoter

Functional analysis of a gibberellin-regulated wheat -amylase promoter, -Amy2/54, has indicated that three regions were essential for expression. By studying the ability of mutant promoters, containing a randomly inserted 22 bp excision linker, to direct expression in oat aleurone protoplasts we have refined the positions and extents of these three cis elements and also demonstrated the presence of two additional elements. By converting the linker insertions to either single base point mutations or deletions using the class IIS restriction endonuclease Bsm I we have shown that nucleotides –119 and –109 within the GARE ^–121GTAACAGAGTCTGG^–108 and nucleotide –152 within the proposed element ^–156GATTGACTTGACC^–144 are essential for high level expression from this promoter.     

Novel<Emphasis Type="Italic"> SBDS</Emphasis> mutations caused by gene conversion in Japanese patients with Shwachman-Diamond syndrome

Shwachman-Diamond syndrome (SDS; OMIM 260400) is an autosomal recessive disorder characterized by exocrine pancreatic insufficiency, bone marrow dysfunction and metaphyseal chondrodysplasia. SDS is caused by mutations in SBDS, an uncharacterized gene. A previous study in SDS patients largely of European ancestry found that most SBDS mutations occurred within a ~240-bp region of exon 2 and resulted from gene conversion due to recombination with a pseudogene, SBDSP. It is unknown, however, whether these findings are applicable to other ethnic groups. To address this question, we examined SBDS mutations in six Japanese families with SDS by direct sequencing. We identified compound heterozygous mutations in four families: two were recurrent (96–97insA, 258+2T>C), and three were novel [292–295delAAAG, (183–184TA>CT +201A>G), (141C>T+183–184TA>CT+201A>G)] mutations. Most of these mutations also appear to result from gene conversion, but the conversion events occurred at various sites between intron 1 and exon 3. Thus, gene conversion mutations in SBDS are common to different ethnic groups, but they are not confined to a limited region of the gene.Y. Makita, M. Masuno, H. Ohashi, G. Nishimura, S. Ikegawa are members of the Japanese Skeletal Dysplasia Consortium     

A multi-component upstream activation sequence of the Saccharomyces cerevisiae glyceraldehyde-3-phosphate dehydrogenase gene promoter

Summary The majority of the activation potential of the Saccharomyces cerevisiae TDH3 gene promoter is contained within nucleotides –676 to –381 (relative to the translation initiation codon). An upstream activation sequence (UAS) in this region has been characterized by in vitro and in vivo assays and demonstrated to be composed of two small, adjacent DNA sequence elements. The essential determinant of this upstream UAS is a general regulatory factor 1 (GRF1) binding site at nucleotides –513 to –501. A synthetic DNA element comprising this sequence, or an analogue in which two of the degenerate nucleotides of the GRF1 site consensus sequence were altered, activated 5 deleted TDH3 and CYC1 promoters. The second DNA element of the UAS is a 7 by sequence which is conserved in the promoters of several yeast genes encoding glycolytic enzymes and occurs at positions –486 to –480 of the TDH3 promoter. This DNA sequence represents a novel promoter element: it contains no UAS activity itself, yet potentiates the activity of a GRF1 UAS. The potentiation of the GRFl UAS by this element occurs when placed upstream from the TATA box of either the TDH3 or CYC1 promoters. The characteristics of this element (termed GPE for GRF1 site potentiator element) indicate that it represents a binding site for a different yeast protein which increases the promoter activation mediated by the GRF1 protein. Site-specific deletion and promoter reconstruction experiments suggest that the entire activation potential of the –676 to –381 region of the TDH3 gene promoter may be accounted for by a combination of the GRF1 site and the GPE.     

Molecular Characterization and Phylogenetic Analysis of Porcine Epidemic Diarrhea Viruses Associated with Outbreaks of Severe Diarrhea in Piglets in Jiangxi,China 2013

Porcine epidemic diarrhea (PED), caused by porcine epidemic diarrhea virus (PEDV), is a highly contagious, acute enteric viral disease of swine characterized by vomiting, watery diarrhea, dehydration and death. To identify and characterize the field PEDVs associated with the outbreaks of severe diarrhea in piglets in Jiangxi, 2013, the complete genome sequences of two representative strains of PEDV, designated CH/JX-1/2013 and CH/JX-2/2013, were determined and analyzed. The genome sequences of both emergent Jiangxi PEDV strains, CH/JX-1/2013 and CH/JX-2/2013, were 28,038 nucleotides in length excluding 3’ poly (A) tail. Compared to the PEDV CV777 strain, CH/JX-1/2013 and CH/JX-2/2013 had some unique genetic characteristics in the proximal region of the 5´-UTRs. Phylogenetic analysis of the complete genomes and the structural proteins revealed that CH/JX-1/2013 and CH/JX-2/2013 had a close relationship with post-2010 Chinese PEDV strains and US strains identified in 2013. The nucleotide identity between the two Jiangxi strains (CH/JX-1/2013 and CH/JX-2/2013) and 30 strains of PEDV identified ante-2010 and post-2010 ranged from 96.3–97.0% and 97.3–99.7%, respectively. Multiple nucleotide and deduced amino acid mutations were observed in the ORF1a/b, S, ORF3, E, M and N genes among the current field PEDV strains when compared to the CV777 strain. Some of the mutations altered the amino acid charge and hydrophilicity, and notably, there was an amino acid substitution in the middle of one neutralizing epitope (L1371I) of the S gene of both CH/JX-1/2013 and CH/JX-2/2013. Taken together, the accumulated genetic variations of the current field PEDV strains might have led to antigenic changes of the viruses, which might confer the less effectiveness or failure of the CV777-based vaccines currently being widely used in Jiangxi, China.     

The Relationship between TTF-1 Expression and EGFR Mutations in Lung Adenocarcinomas

Objective

To explore the relationship between TTF-1 and EGFR mutations in lung adenocarcinoma tissues to guide clinical treatment timely and effectively.

Materials and Methods

we collected 664 tissue samples from patients with histologically confirmed lung adenocarcinoma from May 2010 to April 2013. All tumor tissues were collected prior to administering therapy. TTF-1 was detected byimmunohistochemistry and EGFR mutations by DNA direct sequencing. Finally, the correlation between TTF-1 expression and the presence of EGFR mutations was analyzed using χ² test or Fisher’s exact test with SPSS software version 18.0.

Results

Of the 664 lung adenocarcinoma tissue samples, 18 were partially positive for TTF-1 (+−), and 636 were positive for TTF-1 (+) resulting in a total positive rate of 98.49% (+,+−)(including partial positive). In only 10 cases was the TTF-1 negative (−); the negative rate was 1.51%. There were 402 cases without an EGFR mutation and 262 cases with EGFR mutations; the rate of mutations was 39.46%. The location of the EGFR mutation was exon 19 for 121 cases resulting in a mutation rate in exon 19 of 18.22%. The location of the EGFR mutation was exon 21 for 141 cases resulting in a mutation rate in exon 21 of 21.23%. Exon 18 and 20 detected by DNA direct sequencing no mutations.A Fisher’s exact test was used to determine the correlation between EGFR mutations and TTF-1 expression.for the whole, TTF-1 positive expression(including partial positive) has correlation with EGFR mutations (p<0.001),especially for Exon 21 expression,the correlation is significant (p = 0.008).

Conclusion

In lung adenocarcinomas, positive and partial positive TTF-1 expression has a significant positive correlation with EGFR mutations(exon 19 and 21). In clinical practice, TTF-1 expression combine with EGFR mutations, especially exon 21 mutation can guide clinical treatment timely for lung adenocarcinomas.     

Dissimilarity between prostaglandin E1 and nitric oxide donors as potentiators of plasma exudation in the rabbit skin in vivo

The ability of prostaglandin E₁ (PGE₁) and nitric oxide (NO) donor compounds such as sodium nitroprusside (SNP), glyceryl trinitrate (GTN), and 3-morpholino-sydnonimine (SIN-1) to modulate the histamine- and bradykinin-induced increase in microvascular permeability have been investigated in rabbit skin. The effect of the NO synthesis inhibitor N^ω-nitro- -arginine methyl ester ( -NAME) on the plasma exudation induced by histamine and bradykinin was also studied. Local edema formation was evaluated using [¹²⁵I]human serum albumin. New Zealand white rabbits received an intravenous injection of [¹²⁵I]human albumin followed immediately by the intradermal injection of edematogenic agents into the shaved dorsolateral skin. PGE₁ (0.1 nmol/site) significantly potentiated both histamine- and bradykinin-induced edema. In contrast, SNP (0.4–400 nmol/site), SIN-1 (0.4–400 nmol/site), and GTN (0.4–40 nmol/site) did not affect the edematogenic response induced by either histamine or bradykinin. GTN (0.4–40 nmol/site) also had no effect on the increase in plasma exudation induced by histamine and bradykinin in the presence of PGE₁. -NAME (50–400 nmol/site), but not its enantiomer -NAME, dose-dependently reduced the edema formation induced by a combination of either histamine or bradykinin with PGE₁. This inhibition was significantly reversed by SNP (4–400 nmol/site) and by high doses (2.5 μmol/site) of -arginine (but not by -arginine). Our results thus demonstrate that PGE₁, but not nitrovasodilators, can actually potentiate histamine- and bradykinin-induced edema in rabbit skin. This discrepancy cannot be explained by the lack of vasodilator activity of the nitrovasodilators since these were able to reverse the -NAME-induced inhibition of the edema provoked by histamine. Rather, this difference most likely reflects the ability of PGE₁ to modulate vascular permeability by mechanism(s) other than an increase in arterial flow.     

Phenotypic analysis and molecular cloning of discolored-1 (dsc1), a maize gene required for early kernel development

Recessive mutations in the maize dsc1 locus prevent normal kernel development. Solidification of the endosperm in homozygous dsc1– mutant kernels was undetectable 12 days after pollination, at which time the tissue was apparently completely solidified in wild-type kernels. At later times endosperm did solidify in homozygous dsc1– mutant kernels, but there was a marked reduction in the volume of the tissue. Embryo growth in homozygous dsc1– kernels was delayed compared to wild-type kernels, but proceeded to an apparently normal stage 1 in which the scutellum, coleoptile, and shoot apex were clearly defined. Embryo growth then ceased and the embryonic tissues degraded. Late in kernel development no tissue distinctions were obvious in dsc1– mutant embryos. Immature mutant embryos germinated when transplanted from kernels to tissue culture medium prior to embryonic degeneration, but only coleoptile proliferation was observed. The dsc1 gene was isolated by transposon tagging. Analysis of the two different dsc1– mutations confirmed that transposon insertion into the cloned genomic locus was responsible for the observed phenotype. Dsc1 mRNA was detected specifically in kernels 5–7 days after pollination. These data indicate Dsc1 function is required for progression of embryo development beyond a specific stage, and also is required for endosperm development.     

Changes of cytokinin nucleotides in an anise cell culture (Pimpinella anisum L.) during growth and embryogenesis

Endogenous levels of cytokinin nucleotides in an anise cell culture were determined during proembryonal, as well as embryonal development. In both cultures the maximum level of isopentenyladenine nucleotides was found during the first four days of incubation which correlated with the beginning of logarithmic growth (embryonal: 8 ng g^–1 tresh weight; proembryonal: 17.4 ng g^–1 fresh weight). The concentration of zeatin nucleotides remained constant at a very low level. The present data and those of Ernst et al. (1984) and Ernst and Oesterhelt (1984) are concerned in ascribing a major role to cytokinins in cell division, but not in embryo differentiation.Abbreviations 2,4-D 2,4-dichlorophenoxy acetic acid - FW fresh weight - RIA radioimmunoassay     

Induction by manganese of mitochondrial antibiotic resistance mutations in yeast

Summary Manganese added to the growth medium of Saccharomyces cerevisiae to a final concentration of 4–8 mM induces not only mitochondrial respiratory-deficient mutations (Fig. 1), but also mitochondrial mutations to chloramphenicol- and erythromycin-resistance (Fig. 1, Tables 1–3). This is the first mutagen shown to be capable of inducing mitochondrial antibiotic resistance mutations in yeast. It is assumed that manganese induces mutations through its interaction with mitochondrial DNA polymerase.This work was supported by the Polish Acadmy of Sciences under the project 0.9.3.1.     

Three Novel Mutations in Porphobilinogen Deaminase Gene Identified in Russian Patients with Acute Intermittent Porphyria

Porphobilinogen deaminase (PBGD) is a key enzyme of the heme biosynthetic pathway. Defects in the PBGD gene lead to an autosomal dominant disease, acute intermittent porphyria (AIP). Almost all AIP patients with rare exceptions are heterozygous for the defective gene. To date, at least 160 different mutations causing AIP are identified. Extensive investigations along this line are conducted in many countries of the world. In Russia these studies had not been hitherto performed. Here we report the results of molecular genetic examination of four Russian patients with AIP diagnosed from clinical symptoms. By direct sequencing of the PBGD gene or the corresponding cDNA, we have detected four mutations, three of which were not previously encountered in the world population. These are TAAG deletion in intron 7 between positions +2 and +5 (IVS7 2–5 delTAAG); T deletion in the initiation codon ATG of exon 3, and the G for C replacement at position –1 of intron 5 (IVS5 as –1 G–C), which disrupts splicing. In addition, in one female patient, a known deletion CT in codon 68 was revealed. In two patients, expression of PBGD gene alleles was significantly disproportional, so that normal mRNA prevailed in one case and mutant mRNA of nonerythroid type in the other. Deletion in intron 7 was easily detectable due to the formation of a heteroduplex fragment with abnormal electrophoretic mobility directly in PCR. This simple heteroduplex analysis allowed us to exclude AIP carriage in son and daughter of a female patient with the genetic defect.     

DNA sequence organization in theThysanura Thermobia domestica

Summary Cot and chemical analysis show that the haploid genome size of Thermobia domestica is 3–4×10⁹ nucleotide pairs. Of this DNA 33% is single copy sequences and 67% is repetitive sequences. The repetitive sequences are predominantly 300 nucleotides in length and are interspersed among the single copy sequences in a short period interspersion pattern similar to that observed in Xenopus and many other higher eucaryotes. The DNA sequence organization observed in Thermobia is compared with that of other more highly evolved insects.Abbrevations HAP-hydroxyapatite, Cot mole nucleotides × liter^–1 s. - N sodium phosphate, pH 6.8     

Molecular Characterization of Ambiguous Mutations in HIV-1 Polymerase Gene: Implications for Monitoring HIV Infection Status and Drug Resistance

Detection of recent HIV infections is a prerequisite for reliable estimations of transmitted HIV drug resistance (t-HIVDR) and incidence. However, accurately identifying recent HIV infection is challenging due partially to the limitations of current serological tests. Ambiguous nucleotides are newly emerged mutations in quasispecies, and accumulate by time of viral infection. We utilized ambiguous mutations to establish a measurement for detecting recent HIV infection and monitoring early HIVDR development. Ambiguous nucleotides were extracted from HIV-1 pol-gene sequences in the datasets of recent (HIVDR threshold surveys [HIVDR-TS] in 7 countries; n=416) and established infections (1 HIVDR monitoring survey at baseline; n=271). An ambiguous mutation index of 2.04×10^-3 nts/site was detected in HIV-1 recent infections which is equivalent to the HIV-1 substitution rate (2×10^-3 nts/site/year) reported before. However, significantly higher index (14.41×10^-3 nts/site) was revealed with established infections. Using this substitution rate, 75.2% subjects in HIVDR-TS with the exception of the Vietnam dataset and 3.3% those in HIVDR-baseline were classified as recent infection within one year. We also calculated mutation scores at amino acid level at HIVDR sites based on ambiguous or fitted mutations. The overall mutation scores caused by ambiguous mutations increased (0.54×10^-23.48×10^-2/DR-site) whereas those caused by fitted mutations remained stable (7.50-7.89×10^-2/DR-site) in both recent and established infections, indicating that t-HIVDR exists in drug-naïve populations regardless of infection status in which new HIVDR continues to emerge. Our findings suggest that characterization of ambiguous mutations in HIV may serve as an additional tool to differentiate recent from established infections and to monitor HIVDR emergence.     

Cloning and sequence analysis of a cDNA for the α-globin mRNA of carp, Cyprinus carpio

A cDNA for α-globin mRNA of the carp, Cyprinus carpio, was cloned by the method of Okayama and Berg (Mol. Cell. Biol. 2 (1982) 161–170) and its complete nucleotide sequence was determined. The 5′ non-coding region contained 23 nucleotides. Following this region, there was an open reading frame encoded with an α-globin polypeptide consisting of 142 amino acids. The 3′ non-coding region was 88 nucleotides in length, including two copies of the hexanucleotide AATAAA and a poly(A) site of the GC dinucleotide. There were 16 discrepancies between the reported amino acid sequence of the carp α-globin chain and the amino acid sequence predicted from the DNA sequence of the clone. The possible explanations for these differences in amino acid sequence are discussed.     

Unexpectedly broad target recognition of the CRISPR-mediated virus defence system in the archaeon Sulfolobus solfataricus

The hyperthermophilic archaeon Sulfolobus solfataricus carries an extensive array of clustered regularly interspaced short palindromic repeats (CRISPR) systems able to mediate DNA degradation of invading genetic elements when complementarity to the small CRISPR-derived (cr)RNAs is given. Studying virus defence in vivo with recombinant viral variants, we demonstrate here that an unexpectedly high number of mutations are tolerated between the CRISPR-derived guide RNAs (crRNAs) and their target sequences (protospacer). Up to 15 mismatches in the crRNA still led to ∼50% of DNA degradation, when these mutations were outside the ‘seed’ region. More than 15 mutations were necessary to fully abolished interference. Different from other CRISPR systems investigated in vivo, mutations outside the protospacer region indicated no need for a protospacer adjacent motif sequence to confer DNA interference. However, complementarity of only 3 nucleotides between the repeat-derived 5′ handle of the crRNA and nucleotides adjacent to the protospacer enabled self-recognition, i.e. protection of the host locus. Our findings show commonalities and differences among the various CRISPR-mediated defence systems and suggest that they should not merely be perceived as a ‘first-barrier-defence system’ but may be considered to have a broader mechanism that allows host cells to cope with viruses keeping them at reduced levels.     

First Report of a Deletion Encompassing an Entire Exon in the Homogentisate 1,2-Dioxygenase Gene Causing Alkaptonuria

Alkaptonuria is often diagnosed clinically with episodes of dark urine, biochemically by the accumulation of peripheral homogentisic acid and molecularly by the presence of mutations in the homogentisate 1,2-dioxygenase gene (HGD). Alkaptonuria is invariably associated with HGD mutations, which consist of single nucleotide variants and small insertions/deletions. Surprisingly, the presence of deletions beyond a few nucleotides among over 150 reported deleterious mutations has not been described, raising the suspicion that this gene might be protected against the detrimental mechanisms of gene rearrangements. The quest for an HGD mutation in a proband with AKU revealed with a SNP array five large regions of homozygosity (5–16 Mb), one of which includes the HGD gene. A homozygous deletion of 649 bp deletion that encompasses the 72 nucleotides of exon 2 and surrounding DNA sequences in flanking introns of the HGD gene was unveiled in a proband with AKU. The nature of this deletion suggests that this in-frame deletion could generate a protein without exon 2. Thus, we modeled the tertiary structure of the mutant protein structure to determine the effect of exon 2 deletion. While the two β-pleated sheets encoded by exon 2 were missing in the mutant structure, other β-pleated sheets are largely unaffected by the deletion. However, nine novel α-helical coils substituted the eight coils present in the native HGD crystal structure. Thus, this deletion results in a deleterious enzyme, which is consistent with the proband’s phenotype. Screening for mutations in the HGD gene, particularly in the Middle East, ought to include this exon 2 deletion in order to determine its frequency and uncover its origin.