Your search keyword '"Biochemistry education"' showing total 16 results

1. Pen and palm model to envision the coexistence of induced-fit and substrate-strain theories of enzyme action.

Author

Varikasuvu, Seshadri Reddy, Ranvee, Lavanya, Varshney, Saurabh, and Mondal, Himel

Subjects

*BIOCHEMISTRY education, *BINDING sites, *BIOCHEMICAL substrates, *TEACHING methods, *ACTION theory (Psychology), *PHYSIOLOGY education

Abstract

Competency-based physiology and biochemistry education can benefit from the creative integration of imaginative narratives into traditional teaching methods. This paper proposes an innovative model using a pen and palm analogy to visualize enzyme function theories. The pen (substrate) must fit snugly into the palm (enzyme's active site) for catalysis to occur, akin to induced-fit theory. Pressing the pen's top button with the thumb represents the strain needed to convert substrate (pen with nib inside) into product (pen with nub out, ready to write). By leveraging everyday objects creatively, students can enhance their understanding and engagement with enzymatic reactions. NEW & NOTEWORTHY: Understanding how enzymes work can be tricky, but a new teaching method using everyday objects like pens and palms helps make it easier. Two main theories explain this: the induced-fit model and the substrate-strain model. To visualize this, imagine a pen as the substrate and your palm as the enzyme. When you hold the pen with your fingers (induced-fit), it's like the enzyme changing shape to hold the substrate. Pressing the pen's button with your thumb (substrate-strain) is like the enzyme applying pressure to make the pen ready to write. This simple analogy helps students better understand these complex processes, making learning more engaging and accessible. [ABSTRACT FROM AUTHOR]

Published

2024

2. Assessing the performance of ChatGPT to solve biochemistry question papers of university examination.

Author

Mahat RK, Jantikar AM, Rathore V, and Panda S

Subjects

Humans, Universities, Artificial Intelligence, Biochemistry education, Academic Performance

Published

2023

3. Proinflammatory cytokines differentially regulate adipocyte mitochondrial metabolism, oxidative stress, and dynamics.

Author

Hahn, Wendy S., Kuzmicic, Jovan, Burrill, Joel S., Donoghue, Margaret A., Foncea, Rocio, Jensen, Michael D., Lavandero, Sergio, Arriaga, Edgar A., and Bernlohr, David A.

Subjects

*THERAPEUTIC use of cytokines, *CELLULAR immunity, *IMMUNOREGULATION, *METABOLIC regulation, *BIOCHEMISTRY education, *HABER-Weiss reaction

Abstract

Proinflammatory cytokines differentially regulate adipocyte mitochondrial metabolism, oxidative stress, and dynamics. Macrophage infiltration of adipose tissue and the chronic low-grade production of inflammatory cytokines have been mechanistically linked to the development of insulin resistance, the forerunner of type 2 diabetes mellitus. In this study, we evaluated the chronic effects of TNFα, IL-6, and IL-1β on adipocyte mitochondrial metabolism and morphology using the 3T3-L1 model cell system. TNFα treatment of cultured adipocytes led to significant changes in mitochondrial bioenergetics, including increased proton leak, decreased ΔΨm, increased basal respiration, and decreased ATP turnover. In contrast, although IL-6 and IL-1β decreased maximal respiratory capacity, they had no effect on ΔΨm and varied effects on ATP turnover, proton leak, or basal respiration. Only TNFα treatment of 3T3-L1 cells led to an increase in oxidative stress (as measured by superoxide anion production and protein carbonylation) and C16 ceramide synthesis. Treatment of 3T3-L1 adipocytes with cytokines led to decreased mRNA expression of key transcription factors and control proteins implicated in mitochondrial biogenesis, including PGC-1α and eNOS as well as deceased expression of COX IV and Cyt C. Whereas each cytokine led to effects on expression of mitochondrial markers, TNFα exclusively led to mitochondrial fragmentation and decreased the total level of OPA1 while increasing OPA1 cleavage, without expression of levels of mitofusin 2, DRP-1, or mitofilin being affected. In summary, these results indicate that inflammatory cytokines have unique and specialized effects on adipocyte metabolism, but each leads to decreased mitochondrial function and a reprogramming of fat cell biology. [ABSTRACT FROM AUTHOR]

Published

2014

4. Teaching nutritional biochemistry: an experimental approach using yeast.

Author

Alonso, Manuel and Stella, Carlos A.

Subjects

*BIOCHEMISTRY education, *NUTRITION education, *SACCHAROMYCES cerevisiae, *CELLS, *METABOLISM, *BIOLOGICAL systems

Abstract

In this report, we present a practical approach to teaching several topics in nutrition to science students at the high school and college freshmen levels. This approach uses baker's yeast (Saccharomyces cerevisiae) as a biological system model. The diameters of yeast colonies, which vary according to the nutrients present in the medium, can be observed, compared, and used to teach metabolic requirements. The experiments described in this report show simple macroscopic evidence of submicroscopic nutritional events. This can serve as a useful base for an analogy of heterotrophic human cell nutrition. [ABSTRACT FROM AUTHOR]

Published

2012

5. Interactive Metabolism, a simple and robust active learning tool that improves the biochemistry knowledge of undergraduate students.

Author

França VCPLA and Campos WF

Subjects

Biochemistry education, Humans, Knowledge, Problem-Based Learning, Students, Teaching, Education, Medical, Undergraduate, Students, Medical

Abstract

Advances in physiology and other fields are strongly associated with a solid base knowledge of biochemistry and cell metabolism. On the other hand, the complex and abstract nature of metabolic pathways, the traditional lecture method, and other factors made the teaching-learning process of biochemistry a challenging endeavor. To overcome this, we developed and tested a novel active learning tool called Interactive Metabolism ( i M-tool). The i M-tool was developed with simple and low-cost materials. We used it for interactive teaching of several metabolic pathways and physiological mechanisms for students enrolled in the Biochemistry subject belonging to different undergraduate courses. The results of evaluation tests showed that the i M-tool significantly (ANOVA, P < 0.01) and consistently improved the biochemistry knowledge of students in classrooms with up to 50 students for 7 different and consecutive academic semesters. A survey intended to mine students' opinions on the tools showed significant satisfaction with the teaching using the i M-tool over traditional lecture-based teaching, and the i M-tool contributed to collaborative learning among students. Therefore, our results showed that the i M-tool improves the biochemistry and cell metabolism teaching-learning process in a more attractive and interactive manner.

Published

2021

6. A simple way for students to understand the Michaelis and Menten equation.

Author

Turrens, Julio F.

Subjects

*NUMERICAL solutions to equations, *BIOCHEMISTRY education

Abstract

Presents an approach to teaching the Michaelis and Menten equation (Km), one of the subjects covered in most graduate and undergraduate biochemistry courses. Overview on the concept of Km; Factors to be considered for the derivation of Km equation; Correlation between P50 and Km and binding of oxygen to myoglobin and substarte to a Michaelian enzyme.

Published

1997

7. Exploratory study of factors related to educational scores of first preclinical year medical students.

Author

Sitticharoon C, Srisuma S, Kanavitoon S, and Summachiwakij S

Subjects

Attention, Curriculum, Educational Measurement, Educational Status, Female, Humans, Income, Learning, Life Style, Linear Models, Male, Motivation, Personal Satisfaction, Sleep, Surveys and Questionnaires, Teaching methods, Thailand, Anatomy education, Biochemistry education, Education, Medical, Undergraduate, Physiology education, Students, Medical psychology

Abstract

The relationships among the scores of major subjects taught in the first preclinical year of a Thai medical school, previous academic achievements, and daily life activities are rarely explored. We therefore performed an exploratory study identifying various factors possibly related to the educational scores of these medical students. Questionnaires were sent out to all first preclinical year medical students, with 79.8% being returned (245/307 questionnaires). Positive correlations were revealed between the premedical year grade point average (pre-MD GPA) and anatomy, physiology, and biochemistry scores (R = 0.664, 0.521, and 0.653, respectively, P < 0.001 for all) by Pearson's method. Using multiple linear regression analysis, anatomy scores could be predicted by pre-MD GPA, student satisfaction with anatomy, the percentage of expected reading, monthly earnings, reading after class and near exam time, and duration of sleeping periods near exam time (R = 0.773, R(2) = 0.598, P < 0.001). Physiology scores could be estimated by pre-MD GPA, the percentage of expected reading, monthly earnings, and percentage of those who fell asleep during class and near exam time (R = 0.722, R(2) = 0.521, P < 0.001). Biochemistry scores could be calculated by pre-MD GPA, the percentage of expected reading, motivation to study medicine, student satisfaction with biochemistry, and exam performance expectations (R = 0.794, R(2) = 0.630, P < 0.001). In conclusion, pre-MD GPA and the percentage of expected reading are factors involved in producing good academic results in the first preclinical year. Anatomy and biochemistry, but not physiology, scores are influenced by satisfaction.

Published

2014

8. Design and use of a proton pump inhibitor case to integrate physiology, pharmacology, and biochemistry.

Author

Lee MW

Subjects

Comprehension, Curriculum, Duodenal Ulcer physiopathology, Educational Status, Humans, Male, Mental Recall, Middle Aged, Peer Group, Students, Biochemistry education, Duodenal Ulcer drug therapy, Pharmacology education, Physiology education, Proton Pump Inhibitors pharmacology, Teaching methods

Published

2014

9. Impact of problem-based learning in a large classroom setting: student perception and problem-solving skills.

Author

Klegeris A and Hurren H

Subjects

British Columbia, Comprehension, Educational Measurement, Humans, Motivation, Program Evaluation, Retention, Psychology, Surveys and Questionnaires, Biochemistry education, Group Processes, Perception, Pharmacology education, Problem Solving, Problem-Based Learning, Students, Teaching methods

Abstract

Problem-based learning (PBL) can be described as a learning environment where the problem drives the learning. This technique usually involves learning in small groups, which are supervised by tutors. It is becoming evident that PBL in a small-group setting has a robust positive effect on student learning and skills, including better problem-solving skills and an increase in overall motivation. However, very little research has been done on the educational benefits of PBL in a large classroom setting. Here, we describe a PBL approach (using tutorless groups) that was introduced as a supplement to standard didactic lectures in University of British Columbia Okanagan undergraduate biochemistry classes consisting of 45-85 students. PBL was chosen as an effective method to assist students in learning biochemical and physiological processes. By monitoring student attendance and using informal and formal surveys, we demonstrated that PBL has a significant positive impact on student motivation to attend and participate in the course work. Student responses indicated that PBL is superior to traditional lecture format with regard to the understanding of course content and retention of information. We also demonstrated that student problem-solving skills are significantly improved, but additional controlled studies are needed to determine how much PBL exercises contribute to this improvement. These preliminary data indicated several positive outcomes of using PBL in a large classroom setting, although further studies aimed at assessing student learning are needed to further justify implementation of this technique in courses delivered to large undergraduate classes.

Published

2011

10. Insulin and leptin relations in obesity: a multimedia approach.

Author

Yokaichiya DK, Galembeck E, Torres BB, Da Silva JA, and de Araujo DR

Subjects

Diabetes Mellitus, Type 2 etiology, Diabetes Mellitus, Type 2 metabolism, Education, Distance methods, Health Education methods, Humans, Insulin metabolism, Leptin metabolism, Obesity complications, Program Evaluation, Biochemistry education, Computer-Assisted Instruction, Multimedia, Obesity metabolism, Software, Teaching methods, Teaching Materials

Abstract

Obesity has been recognized as a worldwide public health problem. It significantly increases the chances of developing several diseases, including Type II diabetes. The roles of insulin and leptin in obesity involve reactions that can be better understood when they are presented step by step. The aim of this work was to design software with data from some of the most recent publications on obesity, especially those concerning the roles of insulin and leptin in this metabolic disturbance. The most notable characteristic of this software is the use of animations representing the cellular response together with the presentation of recently discovered mechanisms on the participation of insulin and leptin in processes leading to obesity. The software was field tested in the Biochemistry of Nutrition web-based course. After using the software and discussing its contents in chatrooms, students were asked to answer an evaluation survey about the whole activity and the usefulness of the software within the learning process. The teaching assistants (TA) evaluated the software as a tool to help in the teaching process. The students' and TAs' satisfaction was very evident and encouraged us to move forward with the software development and to improve the use of this kind of educational tool in biochemistry classes.

Published

2008

11. Common misconceptions perpetuated.

Author

Kay B

Subjects

Adolescent, Adult, Attitude, England, Female, Humans, Male, Physical Endurance physiology, Physical Fitness physiology, Sports physiology, Universities, Biochemistry education, Exercise physiology, Physiology education, Sports education

Published

2008

12. Common student misconceptions in exercise physiology and biochemistry.

Author

Morton JP, Doran DA, and Maclaren DP

Subjects

Adolescent, Adult, Attitude, England, Female, Humans, Male, Surveys and Questionnaires, Universities, Biochemistry education, Comprehension, Exercise, Physiology education, Sports education, Students psychology

Abstract

The present study represents a preliminary investigation designed to identify common misconceptions in students' understanding of physiological and biochemical topics within the academic domain of sport and exercise sciences. A specifically designed misconception inventory (consisting of 10 multiple-choice questions) was administered to a cohort of level 1, 2, and 3 undergraduate students enrolled in physiology and biochemistry-related modules of the BSc Sport Science degree at the authors' institute. Of the 10 misconceptions proposed by the authors, 9 misconceptions were confirmed. Of these nine misconceptions, only one misconception appeared to have been alleviated by the current teaching strategy employed during the progression from level 1 to 3 study. The remaining eight misconceptions prevailed throughout the course of the degree program, suggesting that students enter and leave university with the same misconceptions in certain areas of exercise physiology and biochemistry. The possible origins of these misconceptions are discussed, as are potential teaching strategies to prevent and/or remediate them for future years.

Published

2008

13. IT-based activity in physiology education: an experience from a developing country.

Author

Kommalage M and Gunawardena S

Subjects

Anatomy education, Biochemistry education, Educational Measurement, Female, Humans, Male, Models, Educational, Sri Lanka, Students, Medical, Surveys and Questionnaires, Computer-Assisted Instruction, Curriculum, Developing Countries, Education, Medical, Undergraduate, Educational Technology, Information Systems, Physiology education, Problem-Based Learning

Abstract

Information technology (IT)-based components are included as active learning activities in medical curricula that have been shown to be more effective than most passive learning activities. In developing countries, these activities are not popular compared with developed countries. In this study, an IT-based assignment was carried out in physiology for undergraduates in Sri Lanka. We assessed certain basic IT capabilities before the assignment and found that the capability of using MS Word, e-mail, and the internet was limited to 68.3%, 62.0%, and 49.2% of students, respectively, with 40.8% of students having some other IT capabilities. We found a considerable variation in IT capabilities among the students, which depended on IT learning at schools and the geographical locations where students came from. The main source of IT knowledge for students was an introductory IT course given in the medical school with the second source being private IT learning centers. Response to the IT-based assignment was very poor. The reasons for poor participation included a lack of time due to parallel subjects, poor IT knowledge, and poor IT resource availability. However, students were willing to have optional IT-based components and were aware that IT knowledge is important for medical students as well as doctors. This study shows the importance of improving IT knowledge in students and the need of improving IT resources in medical schools. With these improvements, physiology education can be enriched with more interactive IT-based learning activities, which help students to acquire knowledge more efficiently and effectively in developing countries like Sri Lanka.

Published

2008

14. The use of multiple tools for teaching medical biochemistry.

Author

Sé AB, Passos RM, Ono AH, and Hermes-Lima M

Subjects

Humans, Interviews as Topic, Learning, Models, Educational, Surveys and Questionnaires, Biochemistry education, Curriculum, Education, Medical, Undergraduate, Problem-Based Learning, Teaching methods

Abstract

In this work, we describe the use of several strategies employing the philosophies of active learning and problem-based learning (PBL) that may be used to improve the teaching of metabolic biochemistry to medical and nutritional undergraduate students. The main activities are as follows: 1) a seminar/poster system in a mini-congress format (using topics of applied biochemistry); 2) a true/false applied biochemistry exam (written by peer tutors); 3) a 9-h exam on metabolism (based in real publications); 4) the Advanced Biochemistry course (directed to peer tutors, where students learn how to read and criticize real medical papers); 5) experiments about nutrition and metabolism, using students as volunteers, and about free radicals (real science for students); 6) the BioBio blog (taking advantage of the "web age," this enhances out of class exchanges of information between the professor, students, and peer tutors); 7) student lectures on public health issues and metabolic disorders directed to the community and lay people; and 8) the BioBio quiz show. The main objective of these activities is to provide students with a more practical and interesting approach to biochemistry, such as the application of theoretical knowledge to real situations (diseases, experiments, media information, and scientific discoveries). In addition, we emphasize the importance of peer tutor activities for optimized learning of both students and peer tutors, the importance of a closer interaction between students and teaching staff, and the necessity to initiate students precociously in two broad fields of medical activity: "real" basic science and contact with the public (also helping students--future doctors and nutritionists--to be able to communicate with lay people). Most activities were evaluated by the students through written questionnaires and informal conversations, along various semesters, indicating good acceptance and approval of these methods. Good student scores in the biochemistry exams and seminars indicated that these activities are also working as valid educational tools.

Published

2008

15. A simplified representation of biochemical principles based on the dynamics of chemical flow systems.

Author

Tienari J

Subjects

Biochemistry education, Education, Medical, Undergraduate methods, Models, Biological, Models, Chemical

Abstract

This work suggests that the amount of information included in biochemistry texts is artificially increased, because the knowledge presented contains tautologies that are obscured by the use of inappropriate methods of representation. The work then proposes alternative methods of representation for describing biochemical systems that are based on the dynamics of an idealized chemical open-flow system. They would clarify the fact, in an open system, the concentrations of the reactants and reaction products depend not only on the equilibrium constants but on the absolute velocities of the reactions as well. Similar rules apply to phenomena involving other processes, such as diffusion of ions. Biochemical systems are considered as a set of chemical flow systems in which individual processes have the potential for interactions if their end products influence the rate of other processes. These interactions are used to explain how biochemical systems maintain themselves in states of high order. By use of these formulations, some of the logical sequences by which biochemical principles can be deduced from the principles of chemistry can be given simple and illustrative expression.

Published

1995

16. Dr. Sanger's Apprentice. A computer-aided instruction to protein sequencing.

Author

Schmidt TG and Place AR

Subjects

Amino Acid Sequence, Biochemistry education, Computer-Assisted Instruction

Published

1985