Perceptual-Auditory and Acoustic Analysis of Breathiness in Cis and Transgender Men and Women.

OBJECTIVE: To verify breathiness in the cisgender and transgender men and women's voices, compare values of acoustic and perceptual indicators of breathiness and fundamental frequency (f0) between groups, and compare them between the voices attributed as female and male. STUDY DESIGN: Cross sectional retrospective study. METHODS: The study was approved by the Research Ethics Committee (4,937,140). Sustained vowel /a/ and continuous speech recordings of 21 cisgender men (CISM), 31 transgender men (TM), 32 cisgender women (CISW), and 31 transgender women (TW) were analyzed. Three judges conducted a perceptive-auditory analysis regarding the degree breathiness, using a visual analog scale, and attributed gender (female or male). The ABI (Acoustic Breathiness Index) was extracted using the PRAAT software (6.1.16). The f0, Harmonic-Noise Ratio (HNR), Voice Turbulence Index (VTI), and Soft Phonation Index (SPI) were analyzed using the Multi-Dimensional Voice Program (KayPentax). RESULTS: The ABI value for CISM was lower than for TM and CISW. CISW had a higher f0 than; TM had a higher f0 than CISM; and TW had a higher f0 than CISM. The groups did not differ for HNR and VTI. Regarding the SPI, CISM had higher values than CISW. Regarding the auditory perception, TM presented more intense breathiness than CISM in the vowel. Regarding gender attribution by voice, the voices CISM and CISW were 100% identified as male and female. On the other hand, in the vowel analysis, 45.2% of the TM voices were perceived as female, and 59.4% of TW voices as male. CONCLUSION: Breathiness occurs differently between groups and the voices perceived as male and female. Even when TM is submitted to the use of testosterone and undergoes vocal changes, the transglottal airflow remains, which is a female characteristic of phonation.

Different nutritional systems influence the tenderness and lipid oxidation of ewe lamb meat without altering gene expression.

Feeding is a determining factor in the various characteristics of sheep meat and animal performance, the objectives were to evaluate the effect of supplementation of ewe lambs finished in different nutritional planes on the gene expression of CASP3, CAPN1, CAPN2 and CAST and its possible association with meat quality. Samples of the Longissimus lumborum muscle of 24 ewe lambs were used, distributed in 3 groups (n=8): P (pasture), PS (pasture and supplement) and F (feedlot). Physicochemical analyses were performed for centesimal analysis, pH, lipid oxidation, Warner-Bratzler shear force and RT-qPCR for the analysis of relative gene expression of the following genes: CASP3, CAPN1, CAPN2 and CAST. There is an increase in daily weight gain and ethereal extract values in the meat of confined animals, due to the greater energy intake in the nutrition of these animals. Animals kept only on pasture have lower lipid oxidation in meat than other treatments because of the lower percentage of lipids. The Warner-Bratzler shear force is considerably higher in the meat of animals kept only on pasture but is still considered tender. The different nutritional systems do not interfere with the gene expression of CASP3, CAPN1, CAPN2 and CAST in ewe lambs.

Characterization of Peptaibols Produced by a Marine Strain of the Fungus Trichoderma endophyticum via Mass Spectrometry, Genome Mining and Phylogeny-Based Prediction.

Trichoderma is recognized as a prolific producer of nonribosomal peptides (NRPs) known as peptaibols, which have remarkable biological properties, such as antimicrobial and anticancer activities, as well as the ability to promote systemic resistance in plants against pathogens. In this study, the sequencing of 11-, 14- and 15-res peptaibols produced by a marine strain of Trichoderma isolated from the ascidian Botrylloides giganteus was performed via liquid chromatography coupled to high-resolution tandem mass spectrometry (LC-MS/MS). Identification, based on multilocus phylogeny, revealed that our isolate belongs to the species T. endophyticum, which has never been reported in marine environments. Through genome sequencing and genome mining, 53 biosynthetic gene clusters (BGCs) were identified as being related to bioactive natural products, including two NRP-synthetases: one responsible for the biosynthesis of 11- and 14-res peptaibols, and another for the biosynthesis of 15-res. Substrate prediction, based on phylogeny of the adenylation domains in combination with molecular networking, permitted extensive annotation of the mass spectra related to two new series of 15-res peptaibols, which are referred to herein as "endophytins". The analyses of synteny revealed that the origin of the 15-module peptaibol synthetase is related to 18, 19 and 20-module peptaibol synthetases, and suggests that the loss of modules may be a mechanism used by Trichoderma species for peptaibol diversification. This study demonstrates the importance of combining genome mining techniques, mass spectrometry analysis and molecular networks for the discovery of new natural products.

Plant-Derived Toxin Inhibitors as Potential Candidates to Complement Antivenom Treatment in Snakebite Envenomations.

Snakebite envenomations (SBEs) are a neglected medical condition of global importance that mainly affect the tropical and subtropical regions. Clinical manifestations include pain, edema, hemorrhage, tissue necrosis, and neurotoxic signs, and may evolve to functional loss of the affected limb, acute renal and/or respiratory failure, and even death. The standard treatment for snake envenomations is antivenom, which is produced from the hyperimmunization of animals with snake toxins. The inhibition of the effects of SBEs using natural or synthetic compounds has been suggested as a complementary treatment particularly before admission to hospital for antivenom treatment, since these alternative molecules are also able to inhibit toxins. Biodiversity-derived molecules, namely those extracted from medicinal plants, are promising sources of toxin inhibitors that can minimize the deleterious consequences of SBEs. In this review, we systematically synthesize the literature on plant metabolites that can be used as toxin-inhibiting agents, as well as present the potential mechanisms of action of molecules derived from natural sources. These findings aim to further our understanding of the potential of natural products and provide new lead compounds as auxiliary therapies for SBEs.