Search
Filter Results
- Resource Type
- Book2
- Article1
- Book Digital1
- Book Print1
- Result From
- Lane Catalog1
- PubMed1
- SearchWorks (biomedical subset) 1
-
Year
- Journal Title
- Comp Biochem Physiol B1
Search Results
Sort by
- Bookedited by Jennie B. Leach, Elizabeth M. Powell.Summary: This volume provides comprehensive procedures for analyzing the extracellular matrix in native, injured, and engineered neural tissues. Divided into four parts, each focusing on different aspects of the extracellular matrix and the nervous system, Extracellular Matrix covers methods to analyze native tissue, in vitro models for investigating cell-extracellular matrix interactions in a variety of contexts, protocols to investigate the role of the extracellular matrix in nervous system injury, degeneration, and regeneration, as well as therapeutics and engineered systems. Each chapter is written by leading experts and presents established protocols in a concise format, encompassing current technologies as well as methods developed over years of research. Beginning with an introduction to the method, chapters continue with a listing of the materials and equipment, step-by-step protocols, and a Notes section with troubleshooting tips, supplemental details and alternative approaches, as well as a list of references for further information.
- ArticleTurner AC, Hutchison WF.Comp Biochem Physiol B. 1979;64(4):403-5.1. Incorporation studies with three labelled substrates--[14C]2-glycerol, [14C]1-acetate and [14C]1-oleic acid--demonstrated that adult dog heartworms can synthesize all classes of complex lipids present, including free cholesterol. 2. Diacylglycerols and phosphoglycerides were most rapidly labelled regardless of the precursor employed. 3. 14C from glycerol was found in the aqueous phase of saponified lipids, whereas that from oleic acid was in the fatty acid portion. 4. Tag from acetate was predominantly in the fatty acid portion of saponified lipids and also occurred in the unesterified fatty acids. 5. Acetate and unesterified fatty acids, as represented by oleic acid, were more readily used for lipid synthesis than was glycerol.