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1.
Catalysis of ADP-ATP exchange by nucleotide exchange factors (NEFs) is central to the activity of Hsp70 molecular chaperones. Yet, the mechanism of interaction of this family of chaperones with NEFs is not well understood in the context of the sequence evolution and structural dynamics of Hsp70 ATPase domains. We studied the interactions of Hsp70 ATPase domains with four different NEFs on the basis of the evolutionary trace and co-evolution of the ATPase domain sequence, combined with elastic network modeling of the collective dynamics of the complexes. Our study reveals a subtle balance between the intrinsic (to the ATPase domain) and specific (to interactions with NEFs) mechanisms shared by the four complexes. Two classes of key residues are distinguished in the Hsp70 ATPase domain: (i) highly conserved residues, involved in nucleotide binding, which mediate, via a global hinge-bending, the ATPase domain opening irrespective of NEF binding, and (ii) not-conserved but co-evolved and highly mobile residues, engaged in specific interactions with NEFs (e.g., N57, R258, R262, E283, D285). The observed interplay between these respective intrinsic (pre-existing, structure-encoded) and specific (co-evolved, sequence-dependent) interactions provides us with insights into the allosteric dynamics and functional evolution of the modular Hsp70 ATPase domain. 相似文献
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A conserved zinc finger domain in higher plants 总被引:3,自引:0,他引:3
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An nmr spectral comparison of a model cyclic pentapeptide cyclo(Gly-Pro-Gly-D-Phe-Pro) with an analogous pseudopeptide has been made. The pseudopeptide contains a ψ[CH2S] amide bond replacement at the only amide linkage that, in the model, is not involved in an intramolecular hydrogen bond. Both proton and carbon-13 nmr spectral evidence confirms the retention of β- and γ-turns in the pseudopeptide in chloroform. Characteristic chemical shifts, temperature dependence, and glycine α-resonances support this interpretation. However, evidence of a more flexible conformation involving cis–trans proline isomerism is seen on addition of dimethylsulfoxide. 相似文献
5.
A conserved proline-rich region of the Saccharomyces cerevisiae cyclase-associated protein binds SH3 domains and modulates cytoskeletal localization. 总被引:4,自引:1,他引:3 下载免费PDF全文
N L Freeman T Lila K A Mintzer Z Chen A J Pahk R Ren D G Drubin J Field 《Molecular and cellular biology》1996,16(2):548-556
Saccharomyces cerevisiae cyclase-associated protein (CAP or Srv2p) is multifunctional. The N-terminal third of CAP binds to adenylyl cyclase and has been implicated in adenylyl cyclase activation in vivo. The widely conserved C-terminal domain of CAP binds to monomeric actin and serves an important cytoskeletal regulatory function in vivo. In addition, all CAP homologs contain a centrally located proline-rich region which has no previously identified function. Recently, SH3 (Src homology 3) domains were shown to bind to proline-rich regions of proteins. Here we report that the proline-rich region of CAP is recognized by the SH3 domains of several proteins, including the yeast actin-associated protein Abp1p. Immunolocalization experiments demonstrate that CAP colocalizes with cortical actin-containing structures in vivo and that a region of CAP containing the SH3 domain binding site is required for this localization. We also demonstrate that the SH3 domain of yeast Abp1p and that of the yeast RAS protein guanine nucleotide exchange factor Cdc25p complex with adenylyl cyclase in vitro. Interestingly, the binding of the Cdc25p SH3 domain is not mediated by CAP and therefore may involve direct binding to adenylyl cyclase or to an unidentified protein which complexes with adenylyl cyclase. We also found that CAP homologous from Schizosaccharomyces pombe and humans bind SH3 domains. The human protein binds most strongly to the SH3 domain from the abl proto-oncogene. These observations identify CAP as an SH3 domain-binding protein and suggest that CAP mediates interactions between SH3 domain proteins and monomeric actin. 相似文献
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Cassettes for seed-specific expression tested in transformed embryogenic cultures of soybean 总被引:4,自引:0,他引:4
Soybean (Glycine max [L.] Merrill) lectin is a seed protein that accumulates in protein bodies of cotyledons during seed development. We have
constructed two expression cassettes containing the 5′ and 3′ regions of the soybean lectin gene connected by aNot I restriction site. One vector also contains the 32 amino acid signal sequence. Using polymerase chain reaction (PCR), the
coding region of the β-glucuronidase (uidA) gene was inserted into theNot I site of each vector. We tested the function of the expression cassettes in transformed embryogenic cultures of soybean.
Development-specific GUS expression was observed in developing somatic embryos transformed with the chimeric lectin promoter-GUS
constructs as determined by histochemical assays. Our data indicate that these cassettes could be used to drive expression
of foreign genes to modify embryo-specific traits of soybean as protein quality or quantity in the seed. 相似文献
9.
Usually the presence of the quiescent centre in roots is demonstrated by the absence of labelled nuclei following treatment of the root with appropriate radioactive markers. By modification of the pulselabelling technique, a negative image of the quiescent center, showing more intense labelling from [3H]thymidine than the surrounding area, was obtained in regenerating root apices of Zea mays L. 相似文献
10.
Sec12p-dependent membrane binding of the small GTP-binding protein Sar1p promotes formation of transport vesicles from the ER 总被引:27,自引:15,他引:12 下载免费PDF全文
Sec12p is an integral membrane protein required in vivo and in vitro for the formation of transport vesicles generated from the ER. Vesicle budding and protein transport from ER membranes containing normal levels of Sec12p is inhibited in vitro by addition of microsomes isolated from a Sec12p-overproducing strain. Inhibition is attributable to titration of a limiting cytosolic protein. This limitation is overcome by addition of a highly enriched fraction of soluble Sar1p, a small GTP-binding protein, shown previously to be essential for protein transport from the ER and whose gene has been shown to interact genetically with sec12. Furthermore, Sar1p binding to isolated membranes is enhanced at elevated levels of Sec12p. Sar1p-Sec12p interaction may regulate the initiation of vesicle budding from the ER. 相似文献