Problem-Based Learning Resources

Endocrine/Reproduction/Gastrointestinal

Created by Eric C. Niederhoffer, Ph.D.

Associate Professor, Biochemistry & Molecular Biology

Copyright 2000- , E.C. Niederhoffer. All Rights Reserved.
All trademarks and copyrights are the property of their respective owners.

The Biochemistry and Molecular Biology Problem-Based Learning Resources page is designed to support the three objective areas defined by the curriculum.

Check back often for resource page updates! [External links to resources are added (by me) and deleted (by them).]

Self-direct learning and articulation
Reasoning
Interpersonal and group skills

For more information concerning these objectives see PBL: A Student Guide.

As your tutor group works through a Problem-Based Learning Module, learning issues (LI) will be developed. Some groups (as well as some of the cases) are better at this than others. Some groups (and some of the cases) lose focus from time-to-time and important issues are lost in the shuffle.

In order to foster your ability to develop LI and build a knowledge base in biochemistry, including cell and molecular biology, I have created unit LI grids, featured topics, major points, and correlated readings. One can build a foundation by learning about specific topics or by asking questions pertinent to each case. You should note that many of the potential LI appear in multiple cases and across units. You have multiple opportunities to encounter these topics, so don't think that you must completely cover them with any particular case. Note that the link to a PBLM resource page will be activated as tutor groups process that particular case. If you try to open a page too early, it will automatically transfer back to the main unit page.

Cases

General Resources

You might anticipate exploring the following topics:

LI
absorption of nutrients	fatty acid oxidation
bases of clinical assays and tests	gene expression and regulation
bile salts	gene transcription and translation
bilirubin synthesis and conjugation (ppt, pdf)	glycogen synthesis and degradation
bone remodeling	glycolysis
chemical signals in inflammatory process	glycoproteins
composition of egg	G proteins
composition of esophageal tissue	hormonal control of digestion
composition of gall bladder tissue	hormone processing and production
composition of intestinal tissue	ion transport in gastrointestinal tract
composition of liver tissue	ion transport in liver tissue
composition of pancreatic tissue	metabolism of carbohydrates
composition of sperm	metabolism of proteins
composition of stomach tissue	metabolism of lipids
digestion of nutrients	receptors and signal transduction
digestive enzymes	reproductive hormone biosynthesis
electron transport chain	serum proteins
enzyme action	steroid hormone biosynthesis
energy production in gastrointestinal tract	thyroid hormone biosynthesis
energy production in liver	tricarboxylic acid cycle
enzymes in clinical medicine	vitamins

General Internet Resources
Biocarta cellular and metabolic pathways
Corrrelated readings for clinical laboratory tests
emedicine for diagnoses and differentials
Endocrinology, metabolism and nutrition (McGill University)
Lab Tests Online
Urinalysis (University of Utah)
USDA National Nutrient Database
Videos of surgical procedures

I recommend the following textbooks for biochemistry and cell and molecular biology:

Devlin, T. M. (ed.). 2006. Textbook of biochemistry with clinical correlations, 6th ed. John Wiley & Sons, Inc., New York. This is very good for most of what you need.
Karp, G. (ed.). 2005. Cell and molecular biology: concept and experiments, 4th ed. John Wiley & Sons, Inc., New York. This covers cell biology topics not found in Devlin.
Nelson, D. L., and M. M. Cox. (ed.). 2008. Lehninger principles of biochemistry, 5th ed. Worth, New York. This is very good for most of what you need but lacks the clinical correlations found in Devlin.
Salway, J. G. 2006. Medical biochemistry at a glance, 2nd ed. Blackwell Science, Malden, Mass. This is very good for general principles and topics, and metabolic pathways and regulation. Good focused clinical correlations.
Salway, J. G. 2004. Metabolism at a glance, 3rd ed. Blackwell Science, Malden, Mass. This is very good for learning metabolic pathways and regulation, probably the best that I have seen but is physical large in size. Some students find the illustrations too complicated.

The following textbooks are also useful:

Braunwald, E., A. S. Fauci, D. L. Kasper, S. L. Hauser, D. L. Longo, and J. L. Jameson (ed.). 2001. Harrison's principles of internal medicine, 15th ed. McGraw-Hill, Inc., New York.
Scriver, C. R., A. L. Beaudet, D. Valle, W. S. Sly, B. Childs, K. Kinzler, and B. Vogelstein (ed.). 2001. The metabolic and molecular bases of inherited disease, 8th ed. McGraw-Hill, Inc., New York.

The following may be quite useful also:

Basic web lessons covering the building blocks of macromolecules.
Selected MS PowerPoint Animations developed for your use.
Drs. Bhaumiik's and Gupta's Internet materials (password protected) are available.
The Annual Review of (fill in your favorite discipline) series published by Annual Reviews.
Morris Library has an extensive collection of online journals.
Check the MRC (Vertical File) for selected topics as they arise from the cases.

For example, the following references may be found in the MRC Library:

DeMeester, T. R., J. H. Peters, C. G. Bremner, and P. Chandrasoma. 1999. Biology of gastroesophageal reflux disease: pathophysiology relating to medical and surgical treatment. Annual Review of Medicine 50:469-506.
Liberman, U. A., and S. J. Marx. 2001. Vitamin D and other calciferols, pp. 4223-4240. In C. R. Scriver, A. L. Beaudet, W. S. Sly, D. Valle, B. Childs, K. W. Kinzler, & B. Vogelstein (ed.), The metabolic and molecular bases of inherited disease. McGraw-Hill, Inc., New York.
Spiegel, A. M., and L. S. Weinstein. 2001. Pseudohypoparathyroidism, pp. 4205-4221. In C. R. Scriver, A. L. Beaudet, W. S. Sly, D. Valle, B. Childs, K. W. Kinzler, & B. Vogelstein (ed.), The metabolic and molecular bases of inherited disease. McGraw-Hill, Inc., New York.
Taylor, S. I. 2001. Insulin action, insulin resistance, and type 2 diabetes mellitus, pp. 1433-1469. In C. R. Scriver, A. L. Beaudet, W. S. Sly, D. Valle, B. Childs, K. W. Kinzler, & B. Vogelstein (ed.), The metabolic and molecular bases of inherited disease. McGraw-Hill, Inc., New York.
Refetoff, S., J. E. Dumont, and G. Vassart. 2001. Thyroid disorders, pp. 4029-4075. In C. R. Scriver, A. L. Beaudet, W. S. Sly, D. Valle, B. Childs, K. W. Kinzler, & B. Vogelstein (ed.), The metabolic and molecular bases of inherited disease. McGraw Hill, Inc., New York.
Youngren, J. F., and I. D. Goldfine. 1997. The molecular basis of insulin resistance. Science & Medicine 4:18-27.

C2000 Resources PBLM

Biochemistry and Molecular Biology Home Page

Submit your questions and comments to the following:
eniederhoffer@siumed.edu