Mitogenomic Insights into the Evolution, Divergence Time, and Ancestral Ranges of Coturnix Quails.

The Old-World quails, Coturnix coturnix (common quail) and Coturnix japonica (Japanese quail), are morphologically similar yet occupy distinct geographic ranges. This study aimed to elucidate their evolutionary trajectory and ancestral distribution patterns through a thorough analysis of their mitochondrial genomes. Mitogenomic analysis revealed high structural conservation, identical translational mechanisms, and similar evolutionary pressures in both species. Selection analysis revealed significant evidence of positive selection across the Coturnix lineage for the nad4 gene tree owing to environmental changes and acclimatization requirements during its evolutionary history. Divergence time estimations imply that diversification among Coturnix species occurred in the mid-Miocene (13.89 Ma), and their current distributions were primarily shaped by dispersal rather than global vicariance events. Phylogenetic analysis indicates a close relationship between C. coturnix and C. japonica, with divergence estimated at 2.25 Ma during the Pleistocene epoch. Ancestral range reconstructions indicate that the ancestors of the Coturnix clade were distributed over the Oriental region. C. coturnix subsequently dispersed to Eurasia and Africa, and C. japonica to eastern Asia. We hypothesize that the current geographic distributions of C. coturnix and C. japonica result from their unique dispersal strategies, developed to evade interspecific territoriality and influenced by the Tibetan Plateau's geographic constraints. This study advances our understanding of the biogeographic and evolutionary processes leading to the diversification of C. coturnix and C. japonica, laying important groundwork for further research on this genus.

Dataset from genome sequencing, assembly and mining of microsatellite markers in barred-button quail (Turnix suscitator).

Turnix suscitator (barred-button quail) is a member of the primitive genus Turnix in the highly diverse order of shore birds Charadriiformes. Absence of genome scale data of T. suscitator has limited our understanding about its systematics, taxonomic and evolutionary history as well has hindered the characterization of genome wide microsatellite markers of the same. Hence we generated whole genome short read sequences of T. suscitator, created a high quality assembly and mined genome-wide microsatellite markers from the same. A total of 34142524 reads were sequenced with an estimated genome size of 817 mb. SPAdes assembly consisted of 320761 total contigs and an estimated N50 value of 907 base pairs. Krait identified a total of 77028 microsatellite motifs covering 0.64% of the total sequences in the SPAdes assembly. Further the whole genome sequence and genome wide microsatellites dataset of T. suscitator will facilitate future genomic/evolutionary studies of Turnix species.

Genome survey sequencing and mining of genome-wide microsatellite markers in yellow-billed babbler (Turdoides affinis).

Turdoides affinis is a species of group dwelling old world passerine of family Leiothrichidae. Unavailability of genome-wide sequence and species-specific molecular markers have hindered comprehensive understanding of cooperative breeding behaviour in T. affinis. Therefore, we generated genome-wide microsatellite markers through whole genome short read sequencing of T. affinis. A total of 68.8 gigabytes of paired-end raw data were sequenced containing 195,067,054 reads. Total sequenced reads spanned a coverage of 17X with genome size of 1.18 Gb. A large number of microsatellite markers (265,297) were mined in the T. affinis genome using Krait, and 50 most informative markers were identified and validated further. In-silico PCR results validated 47 markers. Of these 47 markers, five were randomly selected and validated in-vitro in twelve individuals of T. affinis. Genotyping data on these five loci estimated observed heterozygosity (H0) and expected heterozygosity (He) ratios between 0.333 - 0.833 and 0.851-0.906, respectively. Effective allele size ranged from 6.698 to 10.667, inbreeding coefficient of the population ranged from 0.080 to 0.631 and null allele frequency was calculated at 0.055 to 0.303. Polymorphic information content of all the five loci varied between 0.850 and 0.906. Probabilities of exclusion and identity across 5 loci was estimated to be 0.95 and 0.0036, respectively. All the loci showed significant adherence to Hardy-Weinberg equilibrium. The microsatellite markers reported in this study will facilitate future population genetics studies on T. affinis and other congeneric species.

Complete mitogenome of endemic plum-headed parakeet Psittacula cyanocephala - characterization and phylogenetic analysis.

Psittacula cyanocephala is an endemic parakeet from the Indian sub-continent that is widespread in the illegal bird trade. Previous studies on Psittacula parakeets have highlighted taxonomic ambiguities, warranting studies to resolve the issues. Since the mitochondrial genome provides useful information concerning the species evolution and phylogenetics, we sequenced the complete mitogenome of P. cyanocephala using NGS, validated 38.86% of the mitogenome using Sanger Sequencing and compared it with other available whole mitogenomes of Psittacula. The complete mitogenome of the species was 16814 bp in length with 54.08% AT composition. P. cyanocephala mitogenome comprises of 13 protein-coding genes, 2 rRNAs and 22 tRNAs. P. cyanocephala mitogenome organization was consistent with other Psittacula mitogenomes. Comparative codon usage analysis indicated the role of natural selection on Psittacula mitogenomes. Strong purifying selection pressure was observed maximum on nad1 and nad4l genes. The mitochondrial control region of all Psittacula species displayed the ancestral avian CR gene order. Phylogenetic analyses revealed the Psittacula genus as paraphyletic nature, containing at least 4 groups of species within the same genus, suggesting its taxonomic reconsideration. Our results provide useful information for developing forensic tests to control the illegal trade of the species and scientific basis for phylogenetic revision of the genus Psittacula.

Turdoides affinis mitogenome reveals the translational efficiency and importance of NADH dehydrogenase complex-I in the Leiothrichidae family.

Mitochondrial genome provides useful information about species concerning its evolution and phylogenetics. We have taken the advantage of high throughput next-generation sequencing technique to sequence the complete mitogenome of Yellow-billed babbler (Turdoides affinis), a species endemic to Peninsular India and Sri Lanka. Both, reference-based and de-novo assemblies of mitogenome were performed and observed that de-novo assembled mitogenome was most appropriate. The complete mitogenome of yellow-billed babbler (assembled de-novo) was 17,672 bp in length with 53.2% AT composition. Thirteen protein-coding genes along with two rRNAs and 22 tRNAs were detected. The arrangement pattern of these genes was found conserved among Leiothrichidae family mitogenomes. Duplicated control regions were found in the newly sequenced mitogenome. Downstream bioinformatics analysis revealed the effect of translational efficiency and purifying selection pressure over thirteen protein-coding genes in yellow-billed babbler mitogenome. Ka/Ks analysis indicated the highest synonymous substitution rate in the nad6 gene. Evolutionary analysis revealed the conserved nature of all the protein-coding genes across Leiothrichidae family mitogenomes. Our limited phylogeny results placed T. affinis in a separate group, a sister group of Garrulax. Overall, our results provide a useful information for future studies on the evolutionary and adaptive mechanisms of birds belong to the Leiothrichidae family.

Covalent labeling of nuclear vitamin D receptor with affinity labeling reagents containing a cross-linking probe at three different positions of the parent ligand: structural and biochemical implications.

Structure-functional characterization of vitamin D receptor (VDR) requires identification of structurally distinct areas of VDR-ligand-binding domain (VDR-LBD) important for biological properties of 1alpha,25-dihydroxyvitamin D(3) (1,25(OH)(2)D(3)). We hypothesized that covalent attachment of the ligand into VDR-LBD might alter 'surface structure' of that area influencing biological activity of the ligand. We compared anti-proliferative activity of three affinity alkylating derivatives of 1,25(OH)(2)D(3) containing an alkylating probe at 1,3 and 11 positions. These compounds possessed high-affinity binding for VDR; and affinity labeled VDR-LBD. But, only the analog with probe at 3-position significantly altered growth in keratinocytes, compared with 1,25(OH)(2)D(3). Molecular models of these analogs, docked inside VDR-LBD tentatively identified Ser237 (helix-3: 1,25(OH)(2)D(3)-1-BE), Cys288 (beta-hairpin region: 1,25(OH)(2)D(3)-3-BE,) and Tyr295 (helix-6: 1,25(OH)(2)D(3)-11-BE,) as amino acids that are potentially modified by these reagents. Therefore, we conclude that the beta-hairpin region (modified by 1,25(OH)(2)D(3)-3-BE) is most important for growth inhibition by 1,25(OH)(2)D(3), while helices 3 and 6 are less important for such activity.

A topical parathyroid hormone/parathyroid hormone-related peptide receptor antagonist stimulates hair growth in mice.

One of the biggest hurdles in developing peptides for the treatment of hair growth disorders is that there has been no effective method of delivering them topically. Murine hair growth can be stimulated with ip injections of the PTH/PTHrP receptor antagonist, PTH (7-34). We sought to determine whether we could deliver PTH (7-34) topically and achieve stimulation of hair growth. We prepared a topical cream by mixing PTH (7-34) into a liposome vehicle (Novasome A). We applied the cream daily to the backs of 5-wk-old female SKH-1 hairless mice for 1 wk. After the 1 wk of treatment, there was marked stimulation of hair growth in the SKH-1 hairless mice. Relative to controls, mice treated with PTH (7-34) had 216% longer hairs (P < 0.001), 40% more visible hairs (P < 0.001), and 43% more hair follicles stained with 5-bromo-2'-deoxyuridine (P < 0.01). A unique aspect of skin is the possibility to directly target it via topical treatment. Our study is the first to report the hair-stimulating effect of a PTH/PTHrP receptor antagonist topically applied to skin in vivo. Thus, we introduce a novel paradigm to develop topical PTH analogs for treating disorders of hair growth.

Thyroid hormone action on skin: diverging effects of topical versus intraperitoneal administration.

Previously, we demonstrated stimulation of epidermal proliferation and hair growth in triiodothyronine (T(3)) treated mice. To distinguish skin effects of directly applied T(3) from those of systemic hyperthyroidism, we treated CD-1 mice with either intraperitoneally (IP) or topically administered T(3). Relative to controls, mice receiving T(3) IP had 10% thinner epidermis (p < 0.01) and 48% fewer hairs (p < 0.001). By contrast, mice receiving T(3) topically had 78% thicker epidermis (p < 0.01) and 160% more hairs (p < 0.01). To gain insight into factors responsible for the diverging effects, we contrasted T(3) effect on proliferation of isolated keratinocyte cultures versus keratinocytes cocultured with dermal fibroblasts. For keratinocytes grown in the absence of fibroblasts, T(3) stimulated proliferation in a dose-dependent, biphasic pattern with the peak at 0.5 nM T(3) (84 +/- 30%, p < 0.05). Paradoxically, T(3) inhibited proliferation of keratinocytes cocultured with fibroblasts, the nadir at 0.1 nM T(3) (34% +/- 4%, p < 0.001). These studies are the first describing divergent effects of IP and topically administered thyroid hormone. The data suggest that while T(3) stimulated keratinocyte proliferation, T(3) also stimulated proliferation inhibitory factor(s) from skin fibroblasts. Insight into the interplay among the competing factors will be important in understanding thyroid hormone regulation of skin physiology.