Molecular marine biology and biotechnology最新文献

The isolation of total nucleic acids from small metazoan taxa is difficult and often leads to an unacceptably large percentage of unsuccessful polymerase chain reaction (PCR) amplifications. Our work with the evolutionary genetics of harpacticoid copepods was an incentive to refine techniques such that consistent amplifications from minute marine organisms were feasible. We describe these modifications and demonstrate their utility for the amplification of multiple loci from single harpacticoid copepods.

The Japanese pufferfish (genus Fugu), which possesses a highly compact genome, is becoming a popular model among those interested in sequencing and mapping the genomes of higher vertebrates. Although genomic libraries have been derived and used to study the molecular biology of Fugu, biological material derived from the living organism is difficult to obtain for laboratories distant from the Asian Pacific. We have established cell cultures from two Fugu species: kusafugu, Fugu niphobles, and torafugu, F. rubripes. Cultures derived from F. niphobles fry and F. rubripes eye have been passaged more than 60 times over the course of one year, representing approximately 180 population doublings. Proliferating cultures were also initiated from F. rubripes brain, liver, fin, spleen, kidney, swimbladder, and muscle. Karyotype analyses indicated that F. rubripes eye-derived cells possessed a chromosome number in the diploid range; F. niphobles fry cells were slightly hyperploid. Flow cytometry confirmed that the relative amounts of DNA present in cultured cells from both Fugu species were similar to that measured in blood cells collected from F. rubripes, and approximately one-seventh of that measured in diploid human cells. Telomerase activity was easily detectable in lysates prepared from F. niphobles fry cells and F. rubripes eye cells, consistent with the notion that these cultures are capable of indefinite proliferation.

The Pa and Pb promoters of the Atlantic salmon (Salmo salar) GnRH gene were fused together or individually to the Escherichia coli lacZ gene, and their transcriptional activities were measured in transient expression assays in zebrafish (Danio rerio). In 48-hour embryos, both promoters were preferentially expressed in the brain, whereas a cytomegalovirus (CMV) promoter-lacZ fusion gene displayed high levels of activity in nonbrain tissues. Pa and Pb exhibited different cell specificity in the forebrain. Pb was active in large neuron-like cells exclusive in the olfactory placode region, whereas Pa appeared active in nonneuron-like cells in the forebrain. In Atlantic salmon forebrain tissue, both Pa and Pb exhibited endogenous activity, as assessed by reverse transcriptase-polymerase chain reaction (RT-PCR) analysis. However, only the Pb transcript contained the prepro-GnRH exon II-IV sequences, suggesting that Pa activity may not be related to GnRH production in this species.

The dinoflagellates are distinct eukaryotes in having and extranuclear spindle and permanently condensed chromosomes. These cytologic features implicate special adaptations to the molecular mechanisms of cell cycle control. We have demonstrated the presence of cyclin-box-containing polypeptides in dinoflagellates by immunoblotting using peptide-generated antibodies. We identified four major cyclin-box-containing polypeptides. The cell cycle dynamics of these polypeptides were also investigated in synchronized populations, using a newly developed method. Of the four major cyclin-box-containing polypeptides detected, a triplex with apparent molecular weight of 75 kDa did not change appreciably during the cell cycle. For two other cyclin-box-containing polypeptides with apparent molecular weights of 50 and 65 kDa, we observed an early expression in the cell cycle, with the level accumulating and eventually being degraded on the exit of mitosis. At least on cyclin-box-containing polypeptide (50 kDa) was also observed in a protein complex bound to p13suc1 beads. The bound complex head associated histone kinase activity. Variation of this activity corresponded well with the periodic expression of the 50-kDa cyclin-box-containing polypeptide during the cell cycle of Crypthecodinium cohnii. This demonstrates the presence of cyclins and cyclin-dependent kinases in dinoflagellates.

Ribosomal RNA gene dosage was determined for 20 marine heterotrophic bacteria using short probes (< 600 bp) from the Escherichia coli 16S rRNA gene and Southern blot analysis. All Bacterial strains had between 4 and 10 copies of the 16S rRNA genes in their genomes. This report presents important preliminary data for developing quantitative molecular methods to address population dynamics of marine based of 16S rRNA sequences.

We determined the myoglobin cDNA sequence for seven Antarctic notothenioid fish species. These data identify mutations in the myoglobin gene for Champsocephalus gunnari and Pagetopsis macropterus, two icefish species that lack detectable quantities of the polypeptide but express myoglobin mRNA. a third species lacking myoglobin polypeptide, Chaenocephalus aceratus, is devoid of myoglobin mRNA and accordingly failed to produce myoglobin products on polymerase chain reaction (PCR) amplification. Myoglobin cDNA sequences were highly conserved among the species the express the protein, particularly in the coding region. Sequence variation among the myoglobin-expressing channichthyid species was 2.0% to 2.9% in the coding region and 2.6% to 3.3% over the entire cDNA. The same extent of variation, 1.6% to 3.2% in the coding sequence and 2.8% to 3.7% overall, was observed between the icefishes and more distantly related, red-blooded nototheniid species. The two species expressing mutant myoglobin mRNA, C. gunnari and P. macropterus, exhibited the highest degree of sequence variation among the fish myoglobins examined. Drift in the myoglobin sequence in these two species, and conservation of myoglobin cDNA among fishes from two distinct families, suggest that a selective pressure operates to maintain myoglobin in the species that express the protein.

Complementary DNA (cDNA) encoding the channel catfish (Ictalurus punctatus) gonadotropin (GTH) alpha-subunit glycoprotein was cloned by polymerase chain reaction (PCR) from a plasmid library made from pituitary RNA. Complete cDNA cloning was achieved by carrying out two PCR reactions: one with an upstream sense primer plus the universal sequencing primer, located downstream of the poly(A) sequence of the cDNA in the plasmid vector, to amplify the downstream portion of the cDNA; the other with a downstream antisense primer plus the reverse-sequencing primer, located upstream of the very 5' end of the cDNA sense strand in the plasmid vector, to amplify the upstream portion of the cDNA. The two amplified fragments overlapping about 70 bp. Nucleotide sequence analysis revealed that the catfish GTH alpha-subunit was 658 bp encoding 116 amino acids and harboring a 5' nontranslated region (NTR) of 42 bp and a 3' NTR of 265 bp. The deduced amino acid sequence of the catfish GTH alpha-subunit is highly conserved with those from other cloned teleost GTH alpha-subunits. The GTH alpha-subunit was highly expressed even before induction for ovulation in females during spawning season. Administration of carp pituitary extract (a spawning-inducing reagent) induced only 1.4-fold higher expression of the GTH alpha-subunit RNA, but included very rapid egg maturation and ovulation. This unexpected result indicated that the GTH alpha-subunit may not be the limiting factor for ovulation and spawning, which may be regulated by the change of proportional coupling of the GTH alpha-subunit with specific beta-subunit during hormone-induced ovulation.

This article examines alterations in a broad-host-range plasmid (pQSR50) that were observed following transfer to indigenous marine bacteria by natural transformation. Plasmid DNA from the transformants had altered restriction profiles. However, with the exception of the EcoRI site from one transformant (BS10), fragments amplified by polymerase chain reaction (PCR) and encompassing the recognition sites were cleaved by the relevant endonucleases, providing the sites were present. Analysis with DpnI and MboI indicated differences in DNA methylation between pQSR50 and the transformants. The missing EcoRI site from BS10 and smaller EcoRI fragments observed in transformants indicated that rearrangements had also occurred. Evolution of novel plasmid molecules following gene transfer may be an important mechanism by which natural genetic diversity is generated.

Vestimentiferan tube worms from deep-sea hydrothermal vents and cold-water seeps rely entirely on sulfur-oxidizing bacterial endosymbionts for nutriment. We examined host-symbiont co-evolution by comparing phylogenetic trees from symbiont 16S ribosomal DNA and host mitochondrial COI genes. The endosymbionts comprised two distinct clades, one associated with tube worms from basaltic vent habitats and the other associated with tube worms from sedimented seep-like environments. Within each symbiont clade, 16S rDNA sequences were nearly identical, suggesting that vent vestimentiferans share a single endosymbiont species that is distinct from the seep endosymbiont species. A third endosymbiont type, related to the seep species, was found in a tube worm collected from a whale carcass. Our results are consistent with a horizontal model of symbiont transmission.

The digestive enzyme alpha-amylase in Pecten maximus has been purified from the digestive gland, where it is present as two isoforms, In order to gain information on its structure and regulation, a digestive gland cDNA library, constructed in lambda phage Zap II (Stratagene, La Jolla, Calif., U.S.A.), was screened with a shrimp alpha-amylase cDNA probe. Only 0.02% of the clones were positive, and the longest clone, having a size of 1700 bp and identical to that of the mRNA, was fully sequenced. It contains the complete cDNA coding frame for one of the amylase isoforms of P. maximus. The deduced protein sequence is 508 amino acids long, with a putative 18 amino acid, highly hydrophobic signal peptide and a mature enzyme of 489 residues. The molecular weight corresponds to 54,500 Da and the calculated isoelectric point is 6.76. Locations of conserved sequences confirms the high level of similarity with the other members of the family.