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      Bradykinin, Kallidin and Kallikrein 

      Plasma Kininogenases and Their Activators

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      Springer Berlin Heidelberg

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          CRYSTALLINE SOYBEAN TRYPSIN INHIBITOR

          M. Kunitz (1947)
          A study has been made of the general properties of crystalline soybean trypsin inhibitor. The soy inhibitor is a stable protein of the globulin type of a molecular weight of about 24,000. Its isoelectric point is at pH 4.5. It inhibits the proteolytic action approximately of an equal weight of crystalline trypsin by combining with trypsin to form a stable compound. Chymotrypsin is only slightly inhibited by soy inhibitor. The reaction between chymotrypsin and the soy inhibitor consists in the formation of a reversibly dissociable compound. The inhibitor has no effect on pepsin. The inhibiting action of the soybean inhibitor is associated with the native state of the protein molecule. Denaturation of the soy protein by heat or acid or alkali brings about a proportional decrease in its inhibiting action on trypsin. Reversal of denaturation results in a proportional gain in the inhibiting activity. Crystalline soy protein when denatured is readily digestible by pepsin, and less readily by chymotrypsin and by trypsin. Methods are given for measuring trypsin and inhibitor activity and also protein concentration with the aid of spectrophotometric density measurements at 280 mµ.
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            AN ENZYME CASCADE IN THE BLOOD CLOTTING MECHANISM, AND ITS FUNCTION AS A BIOCHEMICAL AMPLIFIER.

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              WATERFALL SEQUENCE FOR INTRINSIC BLOOD CLOTTING.

              A simple waterfall sequence is proposed to explain the function of the various protein clotting factors during the formation of the fibrin clot. When clotting is initiated, each cloting factor except fibrinogen is converted to a form that has enzymatic activity. This activation occurs in a sepwise sequence with each newly formed enzyme reacting with its specific substrate, converting it to an active enzyme.
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                Book Chapter
                1970
                : 82-130
                10.1007/978-3-642-46222-1_6
                78006ed4-e92c-47dd-aa12-5e27df2e19b2
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