Morris N. Green scite author profile

Aqueous extracts of meconium obtained from normal children and from patients with meconium ileus were examined by means of chemical precipitation, paper electrophoresis and precipitin tests. All the extracts from patients with meconium ileus were found to contain protein which was readily precipitated by trichloracetic acid. In 59 extracts of meconium from normal infants no protein could be demonstrated by the use of trichloracetic acid. In the abnormal extracts, the major constituent was found to be identical with serum albumin, both by paper, electrophoretic-migration studies at two pH levels and by precipitin tests with anti-albumin horse serum. Other protein components were found on electrophoresis that were similar, but not necessarily identical with, the alpha-, beta-, and gamma-globulins of human serum. The extracts from normal meconium gave only a very faint reaction for protein. The electrophoretic pattern did not in any way resemble that obtained with the abnormal extract. Precipitin tests showed that the albumin content of the normal extract was about 1-2% of that of the abnormal extract. After electrophoretic separation of the components of extracts of meconium from patients with meconium ileus, the stainable carbohydrate was found to be greater in the "alpha" region than in the corresponding area for normal serum. The possible role of plasma proteins in the formation of abnormal meconium in meconium ileus is discussed.

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The Mechanism of Resistance to Sulfonamides

Sevag

Green

1944

J Bacteriol

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It has been known for some time that pantothenic acid is effective as a growth vitamin for many bacteria (Williams, 1943). The mechanism involved in the effect of pantothenic acid on growth is, however, not known. The present report deals with a study which indicates that pantothenic acid is involved in the synthesis of tryptophane essential for the multiplication of Staphylococcus aureus. Pantothenate alone or in combination with other vitamins likewise exercises a marked effect upon the resistance of staphylococci to sulfonamides. The relationships between these observations will be described in this paper.It has been observed in this laboratory (see also Gladstone, 1937) that strains of S. aureus can be divided into three classes with respect to their nutritional requirements:1. Nonexacting class. Those which are capable of multiplication in the absence of tryptophane in synthetic media made up of amino acids (table 1, footnote*), also in casein hydrolyzate (table 2, footnote*), each supplemented with vitamins and salts.2. Partialy exacting class. Those capable of multiplication upon the addition of 0.5 per cent glucose to tryptophane-free media.3. Exacting class. Those capable of multiplication only when tryptophane is added to these media, with or without the addition of glucose.The nonexacting and partially exacting strains apparently are able to synthesize tryptophane from amino acids alone and from amino acids and glucose, respectively. Only the partially exacting and exacting strains are considered in this paper. The work of this laboratory has indicated that in staphylococci an inhibition of tryptophane synthesis occurs as one of the results of sulfonamide action Green, 1944a, 1944b). An understanding of the mechanism of tryptophane synthesis by staphylococci is therefore essential from both physiological and chemotherapeutic standpoints, and also in understanding the mechanism of resistance to sulfonamides. RESULTSSource and Variation of Staphylococcus aureus. Through the courtesy of Dr.

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Morris N. Green

The colorimetric determination of leucine aminopeptidase activity with l-leucyl-β-naphthylamide hydrochloride

Nitroreductase activity of animal tissues and of normal and neoplastic human tissues

Studies in Cystic Fibrosis of the Pancreas: Protein Pattern in Meconium Ileus

The Mechanism of Resistance to Sulfonamides

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