Evaluating prevalence of external injuries on nesting loggerhead sea turtles Caretta caretta in southeastern Florida, USA

Sea turtles face both anthropogenic and natural threats including boat strikes, fisheries, pollution, and predator attacks. Injuries from anthropogenic sources are more common than naturally caused injuries. The goal of this study was to determine prevalence and cause (e.g. boat strike, entanglement, hook, shark bite) of injuries on nesting loggerhead sea turtles Caretta caretta on Juno and Jupiter beaches, Florida, USA. During the 2019 and 2020 nesting seasons, 450 loggerhead females were examined for external injuries. Injuries were categorized by anatomic location, condition, and cause. We found that 24% of loggerheads had at least 1 injury. Of the 111 injuries found on 107 nesting females, 88% were healed, 9% were partially healed with some scarred tissue, and 3% were fresh injuries. Most injuries (55%) were lateral injuries on the carapace or appendages. We were able to attribute 60 injuries to a specific cause. Boat strikes accounted for 75% of the 60 injuries, shark bites accounted for 15%, fishing hooks accounted for 7%, and entanglements accounted for the remaining 3%. This study provides new insight into the prevalence of anthropogenic injuries relative to natural injuries in loggerhead sea turtles nesting in the most densely nested beach in the Western Hemisphere and can be used to improve conservation management plans through implementation of fishing and/or boating restrictions in the nesting and foraging areas most commonly frequented by sea turtles.

Production of mobile invertebrate communities on shallow reefs from temperate to tropical seas

Primary productivity of marine ecosystems is largely driven by broad gradients in environmental and ecological properties. By contrast, secondary productivity tends to be more variable, influenced by bottom-up (resource-driven) and top-down (predatory) processes, other environmental drivers, and mediation by the physical structure of habitats. Here, we use a continental-scale dataset on small mobile invertebrates (epifauna), common on surfaces in all marine ecosystems, to test influences of potential drivers of temperature-standardized secondary production across a large biogeographic range. We found epifaunal production to be remarkably consistent along a temperate to tropical Australian latitudinal gradient of 28.6°, spanning kelp forests to coral reefs (approx. 3500 km). Using a model selection procedure, epifaunal production was primarily related to biogenic habitat group, which explained up to 45% of total variability. Production was otherwise invariant to predictors capturing primary productivity, the local biomass of fishes (proxy for predation pressure), and environmental, geographical, and human impacts. Highly predictable levels of epifaunal productivity associated with distinct habitat groups across continental scales should allow accurate modelling of the contributions of these ubiquitous invertebrates to coastal food webs, thus improving understanding of likely changes to food web structure with ocean warming and other anthropogenic impacts on marine ecosystems.

Repeat sequences from complex ds DNA viruses can be used as minisatellite probes for DNA fingerprinting

In a search for new fingerprinting probes for use with sheep, repeat sequences derived from five poxviruses, an iridovirus and a baculovirus were screened against DNA from sheep pedigrees. Probes constructed from portions of the parapox viruses, orf virus and papular stomatitis virus and the baculovirus from the alfalfa looper, Autographa californica, nuclear polyhedrosis virus all gave fingerprint patterns. Probes from three other poxviruses and an iridovirus did not give useful banding patterns.

A phase I trial of RX-0201 (AKT anti-sense) in patients with an advanced cancer

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Background: Akt-1, a proto-oncogene, plays a vital role in cancer progression by stimulating proliferation and inhibiting apoptosis of cancer cells. RX-0201, a 20-mer oligonucleotide with sequence complementary to Akt-1 mRNA, is designed to inhibit the expression of Akt-1 within cancer cells in cancer patients (pts). Non-clinical studies conducted on RX-0201 demonstrated that RX-0201 bears significant in vitro and in vivo anti-cancer activities with favorable safety. Purposes: The aims of the current phase I trial were to determine the maximum tolerated dose (MTD) and to establish pharmacokinetic (PK) and safety profiles of RX-0201 in pts with an advanced cancer. Methods: RX-0201 was administered to pts with an advanced cancer by up to 2 cycles of continuous infusion; each cycle of infusion lasted for 14 days which was followed by a 7-day rest. Rapid dose escalation had been used until at least a grade (G) 2 toxicity was observed, and then a traditional dose escalation followed. Entry criteria included Karnofsky Performance Status score =70, advanced cancer, tumor accessible for paired biopsy, and signed informed consent. 17 pts were enrolled and treated at a dose level ranging from 6 to 315 mg/m2/d on D1–14, repeated q 21 d. Results: G 3 fatigue was observed in two pts at the 315 mg/m2/d dose; three pts dosed at 250 mg/m2/d were not noted with any G 3 toxicity, which make this dose (250 mg/m2/d) the recommended phase II trial dose. No other significant, compound-related, adverse events were observed in those 17 pts participated. Pts PK profiles of RX-0201 and AKT-1 immunohistochemistry results on pts’ tumor biopsy samples will also be presented. Conclusion: MTD of RX-0201 is 315 mg/m2/d in pts with an advanced cancer when the compound is administered in the current continuous infusion regimen.

No significant financial relationships to disclose.

Gene homology between orf virus and smallpox variola virus

About 47% identity was observed between the deduced amino acid sequences of a protein encoded by a gene of the parapoxvirus orf virus (OV) strain NZ2 and a 6 kDa protein of unknown function reported to be produced by an open reading frame expressed early after infection by the orthopoxvirus Western Reserve vaccinia virus (VAC); the open reading frame is absent from VAC strain Copenhagen. Examination of sequences reported for variola virus (VAR) strains Bangladesh, India, Congo- 1970, Somalia- 1977 and Garcia- 1966 revealed each encoded a correlate 58 amino acid protein. The open reading frame was not reported in the original analyses of these sequences because a lower limit of 60 amino acids was used to identify potential encoded proteins. Inspection of partial reading frames reported for cowpox virus (CWV) and ectromelia virus (EMV) suggested that these viruses might also code for a correlate of the VAC WR protein. DNA sequencing of cloned fragments of CWV and EMV confirmed that both these orthopoxviruses encode closely related, full length variants of the VAC and VAR open reading frames. The OV homologue is coded in the OV strain NZ2 BamHI-E fragment E2L open reading frame, which we reported is transcribed early postinfection; moreover, analysis of an NZ2 variant showed E2L was absent, indicating that E2L, like the VAC cognate, is nonessential for virus replication in cell culture. The parapoxvirus and orthopoxvirus correlates have about 20% amino acid sequence resemblance to African swine fever virus DNA binding protein p10, suggesting an ancestral relation of genes.

Sequence and transcriptional analysis of an orf virus gene encoding ankyrin-like repeat sequences

A 1608 bp region located approximately 5.0 kb from the left end of the orf virus (OV) genome (strain NZ2) was sequenced. The sequence revealed a single open reading frame designated G1L. The predicted amino acid sequence of G1L contained eight ankyrinlike repeat sequences. Transcriptional analysis of G1L showed it was transcribed towards the genome terminus during the early phase of infection. S1 nuclease and primer extension analyses showed that the transcriptional start site of the gene was located a short distance downstream from an A + T-rich sequence similar to a vaccinia virus early promoter.

Homologs of vascular endothelial growth factor are encoded by the poxvirus orf virus

A gene encoding a polypeptide with homology to mammalian vascular endothelial growth factors (VEGFs) has been discovered in the genome of orf virus (OV), a parapoxvirus that affects sheep and goats and, occasionally, humans. The gene is transcribed abundantly early in infection and is found immediately outside the inverted terminal repeat at the right end of the genome. In the NZ2 strain of OV (OV NZ2), the gene encodes a polypeptide with a molecular size of 14.7 kDa, while in another strain, OV NZ7, there is a variant gene that encodes a polypeptide of 16 kDa. The OV NZ2 and OV NZ7 polypeptides show 22 to 27% and 16 to 23% identity, respectively, to the mammalian VEGFs. The viral polypeptides are only 41.1% identical to each other, and there is little homology between the two genes at the nucleotide level. Another unusual feature of these genes is their G+C content, particularly that of OV NZ7. In a genome that is otherwise 63% G+C, the OV NZ2 gene is 57.2% G+C and the OV NZ7 gene is 39.7% G+C. The OV NZ2 gene, but not the OV NZ7 gene, is homologous to the mammalian VEGF genes at the DNA level, suggesting that the gene has been acquired from a mammalian host and is undergoing genetic drift. The lesions induced in sheep and humans after infection with OV show extensive dermal vascular endothelial proliferation and dilatation, and it is likely that this is a direct effect of the expression of the VEGF-like gene.

Conservation of gene structure and arrangement between vaccinia virus and orf virus

A 3.3-kb BamHI fragment from the center of the orf virus (OV) NZ2 genome has been sequenced, revealing three major open reading frames (ORFs) with homology to vaccinia virus (VAC) genes. These ORFs have been designated F2L, F3R, and F4R and the proteins they encode were found to be homologous to VAC genes H4L (RNA polymerase-associated protein RAP94), H5R (35-kDa virion envelope antigen) and H6R (topoisomerase), respectively. The OV ORFs are arranged on the genome in an almost identical manner to their VAC counterparts revealing the common evolutionary origin of the two viruses despite the extreme difference in their G+C content. Like its VAC counterpart, F3R was shown to be transcribed early and late during infection. S1 and primer extension analysis located the 5' ends of F3R early transcripts to a position 15-16 nt and 5-10 nt, respectively, downstream from an AT-rich sequence resembling a VAC early promoter. The 5' ends of F3R late transcripts were located to an A within the sequence 5'-TAAAG, 41 nt downstream from the early promoter and 17 nt upstream from the initiation codon. S1 analysis of F2L, which is transcribed only late in infection, revealed transcripts initiating from within the sequence 5'-TAAATG. No transcriptional start point could be detected for F4R but the VAC late transcriptional initiation sequence TAAAT was found close to the predicted translational start point. Another late promoter-like sequence, 5'-TAAATG, was found at the 3' end of F2L. This preceded a short ORF tentatively designated as F1L and predicted to be the beginning of a homologue of VAC H3L.

In vivo recognition of orf virus early transcriptional promoters in a vaccinia virus recombinant

The 4.4-kb BamHI-E fragment of the orf virus (OV) genome contains three discrete open reading frames designated ORF-pp, ORF-1, and ORF-3, all of which are flanked by vaccinia virus-like early transcriptional control sequences. To determine whether the vaccinia transcriptional machinery would recognize these promoters and faithfully transcribe OV genes in vivo the BamHI-E fragment was inserted into the thymidine kinase (TK) locus of vaccinia virus and the recombinant used in transcription studies. Northern blotting analysis of early RNA isolated from 143B-TK- cells infected with the recombinant virus showed that OV genes were transcribed and that the three transcripts of 0.70-(ORF-pp), 0.48- (ORF1), and 0.75-kb (ORF-3) were the same size as their counterparts in OV-infected cells. Analysis of the 5' end of transcripts by S1 nuclease and primer extension showed that the transcriptional start points (tsp) of ORF-pp, ORF-1, and ORF-3 in the recombinant were identical or within four nucleotides of the tsps of the same ORFs in OV. However, there were quantitative differences. ORF-1 was transcribed more efficiently in recombinant virus-infected cells than in those infected with OV and analysis of the putative promoter, 5'-AAAATTGTAAATGTA, showed that it was similar to the 7.5-kDa early promoter of vaccinia virus. This demonstrates that the transcriptional control sequences of OV genes are recognized by vaccinia virus transcriptional factors but that quantitative differences exist suggesting that the generically different transcriptional factors have different promoter sequence requirements for maximal transcription.

An orf virus sequence showing homology to the 14K 'fusion' protein of vaccinia virus

The nucleotide sequence of a region of DNA 30 kb from the right end of the orf virus genome has been determined. Examination of the sequences revealed an open reading frame encoding a 10K peptide with significant amino acid homology to the 14K 'fusion' protein reported in vaccinia virus. The orf virus sequence has a 31% identity with the vaccinia virus protein, but a higher level of homology of core predicted residues. The secondary structure of both proteins is also similar. The occurrence of the TAAAT sequence upstream from the initiation codon indicates that the sequence is likely to be transcribed late in infection.

Vaccinia virus-like early transcriptional control sequences flank an early gene in orf virus

The purpose of this study was to map the initiation (tsp) and termination points of transcripts arising from an open reading frame (ORF3) found in the inverted terminal repeat of the orf virus genome and also, to identify probable transcriptional control sequences. Early transcripts of approx. 0.76 kb were mapped to ORF3 and found to be transcribed toward the ends of the genome. Using the S1 nuclease and primer-extension methods, the bulk of the tsp were mapped to a position 12-13 nucleotides (nt) downstream from a sequence which resembles A + T-rich vaccinia virus early promoters. The 5' ends were 81-82 nt upstream from the first ATG in ORF3. Most of 3' ends of the transcripts mapped to a region 24-32 nt downstream from a T5NT sequence found near the ORF3 stop codon. A second transcription termination point was found 25 nt downstream from another T5NT sequence located downstream and separated by 85 nt from the first. These results infer that the A + T-rich, early transcriptional control sequences found in other poxvirus genomes have been conserved in the G + C-rich genome of orf virus.

Sequence analysis of the inverted terminal repetition in the genome of the parapoxvirus, orf virus

Two BamHI fragments from the right-hand terminal region of the orf virus genome have been sequenced. The bulk of the inverted terminal repetition (ITR) sequence is contained within these fragments and makes up 3388 bp of the 4425-bp sequence reported. The overall base composition of the larger sequence is 59.4% G + C and of the ITR, 60.2% G + C. An extremely G/C-rich (83.2%) block of sequence was found spanning the ITR/unique sequence junction. The bulk of the ITR could be divided into three blocks of directly repeated sequences. One block begins about 250 nucleotides from the terminus and is a direct repeat 15 bp long, repeated 14 times. The other blocks contain seven sequence sets ranging from 16 to 36 nucleotides which are repeated 2 to 4 times, interspersed with one another, interrelated in sequence, and sometimes separated by unique sequence. Eight open reading frames (ORFs), each with the potential to code for polypeptides of 50 residues or more, were identified. Three were found within the ITR, four spanned the ITR/unique sequence junction and one was found outside the ITR. A search for putative poxvirus transcriptional control signals indicated that three of the eight ORFs are likely to be transcribed early, all in the same direction toward the right end of the genome. Sequences of the type T(A)3-5T were found only twice in the sequence and only one preceded an ORF.

A homologue of retroviral pseudoproteases in the parapoxvirus, orf virus

The nucleotide sequence of a near-terminal region of orf virus DNA was determined. Examination of the sequence revealed an open reading frame encoding a peptide with significant amino acid homology to the pseudoprotease domains recently identified in a number of retroviruses including mouse mammary tumor virus, simian Mason-Pfizer virus, maedi-visna virus, and equine infectious anaemia virus. The orf virus pseudoprotease shares up to 28% amino acid homology with retroviral pseudoproteases and appears to be a discrete transcriptional unit rather than a subunit of a larger polypeptide as is the case in retroviruses. The sharing of amino acid composition across such wide taxonomic boundaries suggests that this polypeptide has a functional significance in both retroviruses and poxviruses.

Oxaprozin and sulindac in rheumatoid arthritis: a double-blind comparative trial

Oxaprozin, an anti-inflammatory agent with a half-life of 50 hours, was compared in regard to efficacy and tolerance with sulindac in a 12-week double-blind parallel treatment trial of rheumatoid arthritis. Oxaprozin was given as a single morning daily dose of 1200 mg, sulindac was given as 200 mg twice daily. Analysis of the results from the 20 patients (10 in each group) who completed the trial indicated that both drugs produced statistically significant improvement in morning stiffness, walking speed and the Ritchie index, but only sulindac produced significant improvement in hand function. Neither drug was associated with significant side-effects.