Myosin V motors regulate secretion and cell division in eukaryotes. How MyoV activity is differentially regulated by essential and calmodulin light chain binding remains unclear. We have used NMR spectroscopy to compare the dynamic behavior of Mlc1p, a budding yeast essential light chain, with that of the Xenopus laevis calmodulin. Both proteins have a similar structure and bind similar target proteins but differ in the mechanism by which they interact with the myosin V IQ1. This interaction is essential for MyoV activity. Here, we show that the rigid conformation of the loop connecting the two EF-hand motifs of the Mlc1p N-lobe explains its differential ability to interact with myosin V IQl Moreover, we show that the maintenance of the N-lobe structure is required for the essential function of Mlc1p in vivo. These data show that the core characteristics of myosin light chain N-lobes differentiate Mlc1p and calmodulin binding capability.

Amata, I., Gallo, M., Pennestri, M., Paci, M., Ragnini, A., Cicero, D.o. (2008). N-lobe dynamics of myosin light chain dictates its mode of interaction with myosin V IQ1. BIOCHEMISTRY, 47(47), 12332-12345 [10.1021/bi801178t].

N-lobe dynamics of myosin light chain dictates its mode of interaction with myosin V IQ1

PACI, MAURIZIO;RAGNINI, ANTONELLA;CICERO, DANIEL OSCAR
2008-01-01

Abstract

Myosin V motors regulate secretion and cell division in eukaryotes. How MyoV activity is differentially regulated by essential and calmodulin light chain binding remains unclear. We have used NMR spectroscopy to compare the dynamic behavior of Mlc1p, a budding yeast essential light chain, with that of the Xenopus laevis calmodulin. Both proteins have a similar structure and bind similar target proteins but differ in the mechanism by which they interact with the myosin V IQ1. This interaction is essential for MyoV activity. Here, we show that the rigid conformation of the loop connecting the two EF-hand motifs of the Mlc1p N-lobe explains its differential ability to interact with myosin V IQl Moreover, we show that the maintenance of the N-lobe structure is required for the essential function of Mlc1p in vivo. These data show that the core characteristics of myosin light chain N-lobes differentiate Mlc1p and calmodulin binding capability.
2008
Pubblicato
Rilevanza internazionale
Articolo
Sì, ma tipo non specificato
Settore BIO/10 - BIOCHIMICA
English
Con Impact Factor ISI
Cell proliferation; Flow interactions; Nuclear magnetic resonance; Proteins; Budding yeasts; Calmodulin bindings; Cell divisions; Dynamic behaviors; Essential light chains; In-vivo; Light chains; Lobe dynamics; Myosin light chains; Myosin v; Nmr spectroscopies; Target proteins; Xenopus laevis; Nuclear magnetic resonance spectroscopy; calmodulin; myosin light chain; myosin V IQ1; myosin VI; unclassified drug; amino acid sequence; article; binding affinity; budding; controlled study; in vivo study; light chain; molecular dynamics; nonhuman; nuclear magnetic resonance spectroscopy; priority journal; protein analysis; protein conformation; protein motif; protein protein interaction; protein structure; Xenopus laevis; yeast; Alleles; Amino Acid Motifs; Amino Acid Sequence; Animals; Calmodulin; Cell Survival; Magnetic Resonance Spectroscopy; Models, Molecular; Molecular Conformation; Molecular Sequence Data; Movement; Myosin Light Chains; Myosin Type V; Phenotype; Point Mutation; Protein Binding; Protein Stability; Protein Structure, Tertiary; Saccharomyces cerevisiae; Saccharomyces cerevisiae Proteins; Temperature; Xenopus Proteins; Eukaryota; Saccharomycetales; Xenopus laevis
Amata, I., Gallo, M., Pennestri, M., Paci, M., Ragnini, A., Cicero, D.o. (2008). N-lobe dynamics of myosin light chain dictates its mode of interaction with myosin V IQ1. BIOCHEMISTRY, 47(47), 12332-12345 [10.1021/bi801178t].
Amata, I; Gallo, M; Pennestri, M; Paci, M; Ragnini, A; Cicero, Do
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/27672
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