Hasil untuk "Biochemistry"

Marisa Coelho, Teresa Oliveira, Rúben Fernandes

Adipose tissue is no longer considered to be an inert tissue that stores fat. This tissue is capable of expanding to accommodate increased lipids through hypertrophy of existing adipocytes and by initiating differentiation of pre-adipocytes. Adipose tissue metabolism exerts an impact on whole-body metabolism. As an endocrine organ, adipose tissue is responsible for the synthesis and secretion of several hormones. These are active in a range of processes, such as control of nutritional intake (leptin, angiotensin), control of sensitivity to insulin and inflammatory process mediators (tumor necrosis factor α (TNF-α), interleukin-6 (IL-6), resistin, visfatin, adiponectin, among others) and pathways (plasminogen activator inhibitor 1 (PAI-1) and acylation stimulating protein (ASP) for example). This paper reviews some of the biochemical and metabolic aspects of adipose tissue and its relationship to inflammatory disease and insulin resistance.

P. Williams, L. Laurens

M. Conti, J. Beavo

T. Work, E. Work

S. Harding, A. Rowe, J. C. Horton

P. Dey, J. Harborne

Fred E. Cohen, S. B. Prusiner, D. G. Hardie et al.

L. Lepiniec, I. Debeaujon, J. Routaboul et al.

A. Mathews

Major Themes This course will be about general and fundamental concepts in Biochemistry. We will discuss and learn about distinctive areas that are critical for the chemistry of life processes. These are chemical reactions that are essential to sustain life as a whole in the planet. Main focus will be on critical metabolic pathways and the structure of molecules and biopolymers that make them possible. The course will involve lectures by the instructor and discussions. Tentative schedule In a separate sheet, there is the intended schedule for the lectures. The schedule is tentative as it may slightly change to accommodate the most appropriate lecturing pace. The academic schedule for the University is here Discussion sections There will be an opportunity in all discussion sections for the students to ask questions, but many of these sessions have activities planned for them. Discussion sections are an integral part of the course and the students are expected to participate actively in them. You should attend the section that you registered for. Website and professor-student communication Sakai (http://sakai.luc.edu) will be used for announcements, grades, and other information. Students are responsible to check Sakai as well as the Loyola e-mail account at least once a day. To contact the instructor, the students should e-mail him from their Loyola e-mail account. They should include somewhere in the subject line the word " CHEM361 ". Otherwise, it is quite likely that the message may be overlooked. The student could also e-mail the instructor directly from Sakai.

T. Goodwin

M. Friedman

T. Kararli

M. Roman, P. Jitaru, C. Barbante

lessio Mengaa, Vito Iacobazzia, Vittoria Infantinob et al.

Rubin Gulaboski

Understanding energetics and electron behavior has been pivotal in elucidating numerous fundamental phenomena, including electricity, corrosion, respiration, energy generation in biological systems, intermolecular interactions within living organisms, organic synthesis, drug development, enzyme functions, and the design of biosensors, among others. As 2024 records the centennial anniversary of the completion of the first polarograph by Nobel laureate Jaroslav Heyrovský (awarded the Nobel Prize in Chemistry in 1959), it presents an opportune moment to pay tribute to several eminent electrochemists who have made significant contributions to the field of voltammetric techniques. Following our recent acknowledgment of the outstanding women who have made substantial contributions to voltammetry in a prior publication, this article aims to briefly highlight the major achievements of several distinguished male figures in the field (Jaroslav Heyrovský, Allen J. Bard, Christian Amatore, Richard Compton, Jean-Michel Savéant, Fraser Armstrong, Fritz Scholz, Joseph Wang, Milivoj Lovrić, Valentin Mirčeski, Alan M. Bond). Given that many of these remarkable personalities have contributed both as authors and referees for the Macedonian Journal of Chemistry and Chemical Engineering, this tribute serves as a fitting acknowledgment of their remarkable accomplishments on the occasion of the journal's 50th anniversary.

Dwi Puspa Sukma Viranda, Rochmah Kurnijasanti, Kadek Rachmawati et al.

This study aims to determine the effect of porang (Amorphophallus oncophyllus) tuber extract on the histopathological features of the testicle of alloxan induced rats (Rattus norvegicus). Thirty male rats were randomly divided into six groups. Rats in group C- were injected with distilled water, while rats in groups C+, T0, T1, T2, and T3 were injected with 120 mg/kg bw alloxan. Blood glucose was measured three days after alloxan injection. Rats in groups C- and C+ were then administered with 1% Na-CMC, whereas rats in groups T0, T1, T2, and T3 were then administered with 45mg/kg bw metformin, and 100, 200, and 400 mg/kg bw of porang tuber extract, respectively. All solution were given orally once every day for 14 days. Spermatogenic activity was assessed using the Johnsen scoring system and analyzed by Kruskal-Wallis, followed by the Mann-Whitney test. The diameter and epithelial thickness of the seminiferous tubule were measured using image raster software and analyzed using Anova followed by Duncan's test. The results showed that spermatogenesis score, diameter, and epithelial thickness of seminiferous tubule of group C+ were smaller (p <0.05) than group C-. Spermatogenesis scores of groups T0, T1, T2, and T3 were higher (p <0.05) than group C+. Seminiferous tubule diameter and epithelial thickness in groups T0, T1, and T2 were greater (p <0.05) than group C+. It could be concluded that porang tuber extract at a dose of 200 mg/kg bw improved the spermatogenesis score, diameter seminiferous tubule, and thickness of the epithelium of diabetic rats.

Suhel Tamboli, Sanjay Singh, Dimitry Topolnik et al.

Summary: In the CA1 hippocampus, vasoactive intestinal polypeptide-expressing interneurons (VIP-INs) play a prominent role in disinhibitory circuit motifs. However, the specific behavioral conditions that lead to circuit disinhibition remain uncertain. To investigate the behavioral relevance of VIP-IN activity, we employed wireless technologies allowing us to monitor and manipulate their function in freely behaving mice. Our findings reveal that, during spatial exploration in new environments, VIP-INs in the CA1 hippocampal region become highly active, facilitating the rapid encoding of novel spatial information. Remarkably, both VIP-INs and pyramidal neurons (PNs) exhibit increased activity when encountering novel changes in the environment, including context- and object-related alterations. Concurrently, somatostatin- and parvalbumin-expressing inhibitory populations show an inverse relationship with VIP-IN and PN activity, revealing circuit disinhibition that occurs on a timescale of seconds. Thus, VIP-IN-mediated disinhibition may constitute a crucial element in the rapid encoding of novelty and the acquisition of recognition memory.

Mahaboobbatcha Aleem, Yilu Zhou, Swati Deswal et al.

This study explores the surface chemistry and electrical responses of ultra-high-sensitivity SnO₂ MEMS arrays to enable a novel sequential detection methodology for detecting nitrogen dioxide (NO₂) and ethanol (C₂H₅OH) as a route to achieve selective gas sensing in electronic nose (E-nose) applications. Utilizing tin oxide (SnO₂) thin films deposited via atomic layer deposition (ALD), the array achieves the lowest reported detection limits of 8 parts per billion (ppb) for NO₂. The research delves into the detection mechanisms of NO₂ and C₂H₅OH, both individually and in subsequent exposures, assessing the sensor’s dynamic response across various operating temperatures. It demonstrates rapid response and recovery times, with averages of 48 s and 277 s for NO₂ and 40 and 48 for C₂H₅OH. Understanding the role of individual gases on the SnO₂ surface chemistry is paramount in discerning subsequent gas exposure behavior. The oxidizing behavior of C₂H₅OH following NO₂ exposure is attributed to interactions between NO₂ and oxygen vacancies on the SnO₂ surface, which leads to the formation of nitrate or nitrite species. These species subsequently influence interactions with C₂H₅OH, inducing oxidizing properties, and need to be carefully considered. Principal component analysis (PCA) was used to further improve the sensor’s capability to precisely identify and quantify gas mixtures, improving its applicability for real-time monitoring in complex scenarios.

Seonghyeon An, Yeongjoo Suh, Payam Kelich et al.

In this study, we employed a novel approach to improve the serotonin-responsive ssDNA-wrapped single-walled carbon nanotube (ssDNA-SWCNT) nanosensors, combining directed evolution and machine learning-based prediction. Our iterative optimization process is aimed at the sensitivity and selectivity of ssDNA-SWCNT nanosensors. In the three rounds for higher serotonin sensitivity, we substantially improved sensitivity, achieving a remarkable 2.5-fold enhancement in fluorescence response compared to the original sequence. Following this, we directed our efforts towards selectivity for serotonin over dopamine in the two rounds. Despite the structural similarity between these neurotransmitters, we achieved a 1.6-fold increase in selectivity. This innovative methodology, offering high-throughput screening of mutated sequences, marks a significant advancement in biosensor development. The top-performing nanosensors, N2-1 (sensitivity) and L1-14 (selectivity) present promising reference sequences for future studies involving serotonin detection.

L. Vogler