John M. Louis scite author profile

Upon renaturation, the polyprotein MBP-ATF-Protease-APol, consisting of HIV-1 protease and short native sequences from the trans-frame protein (ATF) and the polymerase (APol) fused to the maltose-binding protein (MBP) of Escherichia coli, undergoes autoprocessing to produce the mature protease in two steps. The initial step corresponds to cleavage of the N-terminal sequence to release the protein intermediate Protease-APol, which has enzymatic activity comparable to that of the mature enzyme. Subsequently, the mature enzyme is formed by a slower cleavage at the C terminus. The rate of increase in enzymatic activity is identical to that of the appearance of MBP-ATF and the disappearance of the MBP-ATF-Protease-APol. Initial rates are linearly dependent on the protein concentration, indicating that the N-terminal cleavage is first-order in protein concentration. The reaction is competitively inhibited by pepstatin A and has a pH rate profile similar to that of the mature enzyme. These results and molecular modeling studies are discussed in terms of a mechanism in which a dimeric full-length fusion protein must form prior to rate-limiting intramolecular cleavage of the N-terminal sequence that leads to an increase in enzymatic activity.

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Internal Dynamics of the Homotrimeric HIV‐1 Viral Coat Protein gp41 on Multiple Time Scales

Lakomek

Kaufman

Stahl

et al. 2013

Angewandte Chemie

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CAR2, a prestalk cAMP receptor required for normal tip formation and late development of Dictyostelium discoideum.

Saxe¹,

Ginsburg²,

Louis³

et al. 1993

Genes Dev.

129

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Extracellular cAMP serves as a primary signaling molecule to regulate the development of Dictyostelium discoideum. It is required for chemotaxis, aggregation, cytodifferentiation, and morphogenetic movement. The receptors for cAMP are members of the family of cell-surface receptors that are linked to G proteins and characterized by seven putative transmembrane domains. Previously, we have isolated the gene for the cAMP receptor subtype 1 (CAR1) from Dictyostelium and suggested that several genes related to CAR1 were present in the genome. Here, we describe a family of cAMP receptor genes of Dictyostelium and the isolation and function of the gene for the cAMP receptor subtype 2, CAR2. CAR2 is structurally similar to CAR1. Overall, their transmembrane and loop domains are -75% identical in amino acid sequence; however, their carboxyl termini are quite dissimilar; CAR2 possesses homopolymeric runs of histidines and asparagines that are absent from the corresponding region in CAR1. Although CAR1 is maximally expressed during the early stages of development, CAR2 is expressed only after cells have aggregated and, then, preferentially in prestalk cells. Transgenic Dictyostelium that have had their wild-type CAR2 gene replaced by a defective copy using homologous recombination proceed through early development but are detained at the tight mound stage. CAR2 may be required for cAMP-directed sorting of prestalk cells during pattern formation within the aggregation mound. Furthermore, although prestalk genes are expressed normally in aggregates that lack CAR2, they exhibit an enhanced expression of prespore-specific mRNA. Previously, we had shown that there was a requirement for CAR1 during early development. The present results demonstrate that the multiple responses of Dictyostelium to cAMP are regulated by distinct cAMP receptors that are encoded by unique genes.

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John M. Louis

Kinetics and mechanism of autoprocessing of human immunodeficiency virus type 1 protease from an analog of the Gag-Pol polyprotein.

Internal Dynamics of the Homotrimeric HIV‐1 Viral Coat Protein gp41 on Multiple Time Scales

CAR2, a prestalk cAMP receptor required for normal tip formation and late development of Dictyostelium discoideum.

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