Journal of Nutrition OpenSOurce Diets- www.ResearchDiets.com

Home Help [Feedback] [For Subscribers] [Archive] [Search] [Contents]
QUICK SEARCH:   [advanced]


     

Journal of Nutrition Vol. 41 No. 2 June 1950, pp. 279-291
Copyright © 1950 by American Society for Nutrition
This Article
Right arrow Full Text (PDF)
Right arrow Purchase Article
Right arrow View Shopping Cart
Right arrow Alert me when this article is cited
Right arrow Alert me if a correction is posted
Services
Right arrow Similar articles in this journal
Right arrow Alert me to new issues of the journal
Right arrow Download to citation manager
Right arrow reprints & permissions
Citing Articles
Right arrow Citing Articles via Google Scholar
Google Scholar
Right arrow Articles by Nishi, H.
Right arrow Articles by Cheldelin, V. H.
Right arrow Search for Related Content
PubMed
Right arrow Articles by Nishi, H.
Right arrow Articles by Cheldelin, V. H.

Pantothenic Acid Studies

IX. The Influence of Dietary Pantothenic Acid upon a Pantothenic Acid Conjugate (PAC) in Rat Tissues1,2,

One Figure

Hiroshi Nishi3, Tsoo E. King4 and Vernon H. Cheldelin5

Department of Chemistry, Oregon State College, Corvallis

1. Albino rats on a pantothenic acid-deficient diet developed pronounced deficiency symptoms over an 8- to 9-week period. Assay of the brain, liver, kidney, heart and skeletal muscle of deficient and control animals revealed that the content of both free and bound pantothenic acid had diminished during this period.
2. Free pantothenic acid, as measured directly by L. arabinosus, represented only 3 to 16% of the total pantothenic acid content of the various tissues in control animals; however, the proportion of the free vitamin was even less in the deficient animals. From 47 to 90% of the free vitamin was lost during depletion of the animals, whereas the decreases in the conjugated forms (measured by A. suboxydans) ranged from 26 to 45%.
3. A significant portion of the bound pantothenic acid in rat tissues was found to exist in non-dialyzable form. In the controls this proportion ranged from 20 to 37% and in the deficient animals from 24 to 57%. The active principle remaining after dialysis was not active in the acetylation of sulfanilamide, and it was considered that this represented the conjugate (PAC) recently described in this laboratory.
4. It was concluded that PAC may be regarded as an important form of pantothenic acid for the rat.
5. Dietary glutamic acid deficiency has no effect upon the amounts of the free or conjugated forms of pantothenic acid in rat tissues.

1 Published with the approval of the Monographs Publications Committee, Oregon State College, Research Paper no. 156, School of Science, Department of Chemistry. For the previous paper in this series, see King and Cheldelin ('50).

2 This investigation was supported by research grants from the Division of Grants and Fellowships of the National Institute of Health, U.S. Public Health Service, the Nutrition Foundation, Inc., and the General Research Council, Oregon State System of Higher Education, Corvallis. Presented in part before the Division of Biological Chemistry, American Chemical Society, 115th meeting, San Francisco, March, 1949.

3 A portion of this work was submitted by H.N. for the M.S. degree in biochemistry, Oregon State College, 1948. Present address: Atomic Bomb Casualty Commission, Japan.

4 On leave 1949–50; interim address, Department of Biochemistry, University of Wisconsin, Madison.

5 On leave 1949-50; interim address, Enzyme Institute, University of Wisconsin, Madison.

Manuscript received 18 January 1950.




Home Help [Feedback] [For Subscribers] [Archive] [Search] [Contents]