Goldsteintange4130

Various process intensification methods were proposed to improve the yield, quality, and safety of fermented products. Here, we report the enhancement of L-leucine production by Corynebacterium glutamicum CP using ultrasound-assisted fed-batch fermentation. Response surface methodology was employed to optimize the sonication conditions. At an ultrasonic power density of 94 W/L, frequency of 25 kHz, interval of 31 min, and duration of 37 s, C. glutamicum CP produced 52.89 g/L of L-leucine in 44 h, representing a 21.6% increase compared with the control. The production performance of L-leucine was also improved under ultrasonic treatment. Moreover, the effects of ultrasound treatment on the fermentation performance of L-leucine were studied in terms of cell morphology, cell membrane permeability, and enzyme activity. The results indicate that ultrasonication is an efficient method for the intensification of L-leucine production by C. glutamicum CP.In this study, four different nanofibers consisting of gelatin (Gel), doxorubicin (DOX) with gel (DOX@Gel), a composite of gel with poly(ethylene glycol) (PEGylated-gel), and DOX@PEGylated-gel were fabricated. Subsequently, the nanofibers were thermally cross-linked in order to offer a stable and biocompatible alternative for the biological applications of nanofibers such as drug delivery and tissue engineering. Nanofibers were characterized by scanning electron microscopy, Fourier Transform-Infrared Spectroscopy (FT-IR), and confocal microscopy. The formation of smooth, continuous, and uniform nanofibers was observed and the addition of PEG resulted in an increase whereas the incorporation of DOX into nanofibers had no significant change in the diameter of nanofibers. Crosslinking also enlarged the diameter of all nanofibers and the most dramatic increase was observed 53% by DOX@PEGylated-gel. Afterward, the biological performance of the nanofibers was investigated by drug release profile, cytotoxicity on A549 cell line as well as antimicrobial activity with E. coli and S. aureus. The results indicate an enhanced drug release profile, moderate antimicrobial activity, and reasonable cytotoxic efficiency for thermally cross-linked nanofibers compared to uncross-linked nanofibers.

Quarantine, although essential during contagious outbreaks, has been correlated with poor psychological outcomes in the general population. Such outcomes include low mood, suicide, and post-traumatic stress symptoms. Studies have mostly looked at the mental health of general citizens, healthcare workers, or infected survivors, with limited research targeting university students. This study aimed to understand the psychological distress experienced by self-quarantined undergraduate university students in Lebanon during the COVID-19 outbreak.

Undergraduate students enrolled at the American University of Beirut were invited to participate in a 47-item online questionnaire. 73 participants completed the questionnaire. SMI-4a in vitro Demographic data, data about COVID-19 exposure, stressors during quarantine, understanding the rationale, compliance, and difficulties associated with quarantine, and levels of psychological distress were analysed.

75.3% of the participants were considered as having a high risk of developing acularly in undergraduate students. Providing preventive and effective interventions is of utmost necessity.KEY POINTSDuring COVID-19, three-quarter of students had high risk for acute stress.Females had higher odds of high-risk acute stress compared to males.Having a chronic medical condition was associated with high risk acute stress.Long quarantine and lack of supplies were associated with high risk acute stress.Providing interventions to protect the mental health of students is necessary.

Cyclophosphamide (CYC) has been proposed as a standard induction regimen for interstitial lung disease (ILD) associated with systemic sclerosis (SSc). However, there remain patients with SSc-ILD who are intractable to the therapy. This study aimed to identify factors associated with inadequate response to CYC and investigate how to treat SSc-ILD, especially in the need for glucocorticoids (GCs) combined with CYC.

This retrospective study included consecutive patients diagnosed with SSc-ILD and treated with CYC between 2009 and 2020. Logistic regression models were used to determine the prognostic factors indicating significant progression of ILD (SP-ILD). The clinical findings of patients treated with vs. without GCs were compared.

Nineteen patients were registered, with a median age of 61.0 years. Fifteen were females, and five were classified into SP-ILD. Baseline high C-reactive protein (CRP) levels and non-widespread or localized ground-glass opacities (GGOs) predicted SP-ILD in multivariable analyses, and the cut-off level of CRP was 0.41 mg/dL. In clinical courses, SSc-ILD with high inflammation temporarily responded to CYC, regardless of the combined use of GCs; however, the therapeutic effects deteriorated soon after stopping CYC.

High CRP levels with non-widespread GGO predicted progressive ILD in patients with SSc treated with CYC.

High CRP levels with non-widespread GGO predicted progressive ILD in patients with SSc treated with CYC.This study aimed to optimize the key parameters of extraction methods and to increase the recovery yields of intact xanthophylls (violaxanthin, zeaxanthin, astaxanthin) from microalgae (Chlorella luteoviridis). An effective, simple, and fast extraction protocol is described. It consists of a grinding pretreatment followed by a microwave-assisted extraction, using ethanol 90% as an environmentally preferable extraction solvent. Xanthopylls were quantified using high performance liquid chromatography. Irradiation time of 6 s only resulted in the extraction of violaxanthin (4.479 ± 0.009 mg/g), astaxanthin (4.154 ± 0.013 mg/g), and zeaxanthin (4.776 ± 0.120 mg/g). The described protocol seems to be the fastest extraction method of xantophylls compared to the literature and could be an advantage for industrial scale, while saving time and energy.The Assay for Transposase Accessible Chromatin by sequencing (ATAC-seq) is becoming popular in the neuroscience field where chromatin regulation is thought to be involved in neurodevelopment, activity-dependent gene regulation, hormonal and environmental responses, and pathophysiology of neuropsychiatric disorders. The advantages of using ATAC-seq include a small amount of material needed, fast protocol, and the ability to capture a range of gene regulatory elements with a single assay. With increasing interest in chromatin research, it is an imperative to have feasible, reliable assays that are compatible with a range of neuroscience study designs. Here we tested three protocols for neuronal chromatin accessibility analysis, including a varying brain tissue freezing method followed by fluorescence-activated nuclei sorting (FANS) and ATAC-seq. Our study shows that the cryopreservation method impacts the number of open chromatin regions identified from frozen brain tissue using ATAC-seq. However, we show that all protocols generate consistent and robust data and enable the identification of functional regulatory elements in neuronal cells. Our study implies that the broad biological interpretation of chromatin accessibility data is not significantly affected by the freezing condition. We also reveal additional challenges of doing chromatin analysis on post-mortem human brain tissue. Overall, ATAC-seq coupled with FANS is a powerful method to capture cell-type-specific chromatin accessibility information in mouse and human brain. Our study provides alternative brain preservation methods that generate high-quality ATAC-seq data while fitting in different study designs, and further encourages the use of this method to uncover the role of epigenetic (dys)regulation in the brain.

Colchicine is the fundamental treatment of familial Mediterranean fever (FMF). Still, 5-10% of patients are not in remission with colchicine treatment. A consensus could not be established for the definition of colchicine resistance in FMF. This study aimed to determine factors that help to predict colchicine resistance in pediatric FMF patients.

Patients with FMF that age of diagnosis was under 18 years old were included in our study. Fifty colchicine responsive and 33 colchicine-resistant patients were stratified as groups 1 and 2, respectively. Patients' clinical and laboratory findings were evaluated. Logistic regression analysis was used to determine the risk factors of colchicine-resistant FMF. Receiver operating characteristic (ROC) curve analysis was used to identify and compare the predictive performances of colchicine-resistant FMF models.

Homozygous exon 10 MEFV mutations were frequent in group 2 (Group 1 34 (68%), group 2 32 (97%),

 = .013). Univariate analysis showed that the age of onset of symptoms, age of diagnosis, chronic arthritis, myalgia and diarrhea during attacks, and the number of attacks, high ISSF and Pras score, high C-reactive protein (CRP) and erythrocyte sedimentation rate (ESR) values under colchicine treatment were risk factors for colchicine-resistant FMF. With multivariate analysis, the number of attacks (OR 1.418, CI (95%) 1.149-1.750,

 = .001) and high ESR values (OR 1.129, CI (95%) 1.059-1.204,

<.001) were detected as independent risk factors for colchicine-resistant FMF.

The predictive factors were determined for pediatric colchicine-resistant FMF in our study. The results will help to early diagnosis and treatment of chronic inflammation in FMF.

The predictive factors were determined for pediatric colchicine-resistant FMF in our study. The results will help to early diagnosis and treatment of chronic inflammation in FMF.We compared the impact of a one-year periodized exercise training versus a non-periodized exercise training on health-related physical fitness (HRPF) including body composition, cardiorespiratory and muscular fitness in patients with coronary artery disease (CAD). Fifty CAD patients (60.4 ± 9.9 years) were randomized to either a periodized training group (PG) (n = 25) or a non-periodized training group (NPG) (n = 25). Both consisted of a combined training programme, performed 3 days/week for 12 months. Thirty-six CAD patients (PG n = 18, NPG n = 18) successfully completed the exercise regimes. In both groups, a favourable main effect for time was evident for peak VO2, peak workload, anaerobic threshold and respiratory compensation point workloads and VO2, whole body skeletal muscle mass and quality index at 12 months.In conclusion, a periodized model is as effective as a non-periodized model in promoting increases in HRPF outcomes following a one-year intervention. These findings indicate that health-professionals can add variation to cardiac rehabilitation workouts without compromising effectiveness.In this study, the genes related to the Downy growth of Liaoning cashmere goats were screened for their expression with simultaneous melatonin administration, so as to investigate the effects of target genes on the proliferation of skin fibroblasts in this animal species. Genes related to the villus growth of skin fibroblasts were screened by in vitro transcriptome sequencing and verified by qPCR. In addition, gene overexpression and interference were used to study the effects of target genes on the proliferation of skin fibroblasts. Groups treated with M1_24H, M2_24H and M2_72H exhibited significant differences compared with the control group. Among them, the differentially expressed transcripts in the M2_72H group were significantly enriched in the TNF and NOD-like receptor signaling pathways, which are associated with the villus. In addition, eight differentially expressed genes were screened from the TNF and the NOD-like receptor signaling pathways. Verification by qPCR showed that the expression of TNF-α, IL-6, TNFAIP3, PYCARD and NFKBIA genes were significantly upregulated, which was consistent with the sequencing results.