Implantation of cranial base metallic markers in nonhuman primates.

Cranial base metallic markers are useful in growth and developmental research on the nonhuman primate model. Metallic implants aid in superimposing serial cephalometric roentgenograms in the study of craniofacial changes. They also enable measurement of linear and angular changes in the cranial base. The design of a special implant gun is described in detail. A suggested technique for placement of tantalum markers in the cranial base of nonhuman primates is discussed.     

Direct evidence for intrastrand DNA inversion of kappa immunoglobulin gene segments in two murine plasmacytomas.

The products of kappa immunoglobulin gene recombination have been characterized in two murine plasmacytomas to examine the relationship between V-J products and reciprocal elements. By cloning, sequencing, hybridization, and application of the polymerase chain reaction, we have established the direct relationship of the kappa recombination products in these cells. The results provide stronger support for the intrastrand mechanism of kappa gene recombination as well as demonstrating a role for secondary, corrective recombinations.     

Inheritance of extreme overweight in black families

We used complex segregation analysis to compare the genetic transmission of overweight in randomly selected black (N = 60) and white (N = 961) families. In both groups we found evidence for polygenic transmission. Major gene inheritance was strongly supported in whites and was marginally supported in blacks. Parameter estimates for black and white families were similar, suggesting that overweight is similarly transmitted in the black and white families we observed. There was evidence in both black and white families for high gene frequency and recessive gene expression. Extreme phenotypes common in black families may be the result of interactions between major genotype and polygenic or environmental factors; alternative explanations for differences in black and white families' transmission patterns are discussed. Replication with a larger group of black families is needed to confirm our findings.     

In situ determination of the functional size of hepatic 3-hydroxy-3-methylglutaryl-CoA reductase by radiation inactivation analysis

Radiation inactivation analysis of liver pieces yielded a target size of 210 kDa for hepatic 3-hydroxy-3-methylglutaryl CoA (HMG-CoA) reductase [S)-mevalonate:NADP+ oxidoreductase (CoA-acylating), EC 1.1.1.34) from rats fed a normal diet. Feeding a diet containing mevinolin and colestipol, which causes a marked increase in enzyme activity, resulted in a reduction of the target size to 120 kDa. These results are consistent with those obtained by radiation inactivation and immunoblotting analysis of isolated microsomes and suggest that the increase in HMG-CoA reductase activity caused by these dietary agents is accompanied by a change from a dimer to a monomer form of the enzyme.     

Functional analysis of the hepatic HMG-CoA reductase promoter by in vivo electroporation

HMG-CoA reductase (HMGR) catalyzes the rate-controlling step in cholesterol production. This enzyme is highly expressed in the liver, where it is subject to extensive hormonal and dietary regulation. Although much is known about the regulation of the HMGR promoter in cultured cells, this issue has not been directly addressed in liver. The technique of in vivo electroporation was utilized to perform the first functional analysis of the HMGR promoter in live animals. Analysis of a series of deletion constructs showed that deletion of the region containing the cyclic AMP response element (CRE) at -104 to -96 and an NF-Y site at -70 to -65 resulted in marked reduction of promoter activity. Sterol regulation of this promoter was investigated by raising tissue cholesterol levels by feeding cholesterol and by decreasing them through administration of a statin (lovastatin). Using this approach, we found that HMGR promoter constructs were sterol responsive in live animals, adding in vivo relevance to previous findings in cultured cells. We also conclude that in vivo electroporation is a convenient and powerful technique for the analysis of promoter elements in the livers of live animals.     

Learning chronobiology by improving wikipedia

Although chronobiology is of growing interest to scientists, physicians, and the general public, access to recent discoveries and historical perspectives is limited. Wikipedia is an online, user-written encyclopedia that could enhance public access to current understanding in chronobiology. However, Wikipedia is lacking important information and is not universally trusted. Here, 46 students in a university course edited Wikipedia to enhance public access to important discoveries in chronobiology. Students worked for an average of 9 h each to evaluate the primary literature and available Wikipedia information, nominated sites for editing, and, after voting, edited the 15 Wikipedia pages they determined to be highest priorities. This assignment (http://www.nslc.wustl.edu/courses/Bio4030/wikipedia_project.html) was easy to implement, required relatively short time commitments from the professor and students, and had measurable impacts on Wikipedia and the students. Students created 3 new Wikipedia sites, edited 12 additional sites, and cited 347 peer-reviewed articles. The targeted sites all became top hits in online search engines. Because their writing was and will be read by a worldwide audience, students found the experience rewarding. Students reported significantly increased comfort with reading, critiquing, and summarizing primary literature and benefited from seeing their work edited by other scientists and editors of Wikipedia. We conclude that, in a short project, students can assist in making chronobiology widely accessible and learn from the editorial process.