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901.
Feng Y Minnerly JC Zurfluh LL Joy WD Hood WF Abegg AL Grabbe ES Shieh JJ Thurman TL McKearn JP McWherter CA 《Biochemistry》1999,38(14):4553-4563
The sequence of granulocyte colony-stimulating factor (G-CSF) has been circularly permuted by introducing new chain termini into interhelical loops and by constraining the N- and C-terminal helices, either by direct linkage of the termini (L0) or by substitution of the amino-terminal 10-residue segment with a seven-residue linker composed of glycines and serines (L1). All the circularly permuted G-CSFs (cpG-CSFs) were able to fold into biologically active structures that could recognize the G-CSF receptor. CD and NMR spectroscopy demonstrated that all of the cpG-CSFs adopted a fold similar to that of the native molecule, except for one [cpG-CSF(L1)[142/141]] which has the new termini at the end of loop 34 with the shorter L1 linker. All of the cpG-CSFs underwent cooperative unfolding by urea, and a systematically lower free energy change (DeltaGurea) was observed for molecules with the shorter L1 linker than for those molecules in which the original termini were directly linked (the L0 linker). The thermodynamic stability of the cpG-CSFs toward urea was found to correlate with their relative ability to stimulate proliferation of G-CSF responsive cells. Taken together, these results indicate that the G-CSF sequence is robust in its ability to undergo linear rearrangement and adopt a biologically active conformation. The choice of linker, with its effect on stability, seems to be important for realizing the full biological activity of the three-dimensional structure. The breakpoint and linker together are the ultimate determinants of the structural and biological profiles of these circularly permuted cytokines. In the following paper [McWherter, C. A., et al. (1999) Biochemistry 38, 4564-4571], McWherter and co-workers have used circularly permuted G-CSF sequences to engineer chimeric dual IL-3 and G-CSF receptor agonists in which the relative spatial orientation of the receptor agonist domains is varied. Interpreting the differences in activity for the chimeric molecules in terms of the connectivity between domains depends critically on the results reported here for the isolated cpG-CSF domains. 相似文献
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905.
R S Harris G Feng K J Ross R Sidhu C Thulin S Longerich S K Szigety P J Hastings M E Winkler S M Rosenberg 《Mutation research》1999,437(1):51-60
This paper is an invited Response to a recent Commentary [P.L. Foster, Rev. Mut. Res. 436 (1999) 179-184] entitled "Are adaptive mutations due to a decline in mismatch repair? The evidence is lacking". The Commentary argues that no evidence exists supporting the idea that mismatch repair is limiting specifically during stationary-phase mutation. A primary concern of the author is to question the method that we used previously to measure growth-dependent mutation. In this method, mutation rates are calculated using counts of mutant colonies taken at times when those colonies arise, rather than at a predetermined, fixed time. Here we show further data that illustrate why this must be done to ensure accurate mutation measurements. Such accuracy was necessary for our published determination that mismatch repair proteins are not limiting during growth-dependent mutation, but become so during stationary-phase mutation. We review the evidence supporting the idea that stationary-phase reversion of a lac frameshift mutation occurs in an environment of decreased mismatch repair capacity. Those data are substantial. The data presented in the Commentary, in apparent contradiction to this idea, do not justify the conclusion presented there. 相似文献
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908.
The INK4 family of cyclin-dependent kinase (CDK) inhibitors negatively regulates cyclin D-dependent CDK4 and CDK6 and induces the growth-suppressive function of Rb family proteins. Mutations in the Cdk4 gene conferring INK4 resistance are associated with familial and sporadic melanoma in humans and result in a wide spectrum of tumors in mice, suggesting that INK4 is a major regulator of CDK4. Mice lacking the Cdk4 gene exhibit various defects in many organs associated with hypocellularity, whereas loss of the p18(Ink4c) gene results in widespread hyperplasia and organomegaly. To genetically test the notion that the function of INK4 is dependent on CDK4, we generated p18; Cdk4 double-mutant mice and examined the organs and tissues which developed abnormalities when either gene is deleted. We show here that, in all organs we have examined, including pituitary, testis, pancreas, kidney, and adrenal gland, hyperproliferative phenotypes associated with p18 loss were canceled. The double-mutant mice exhibited phenotypes very close to or indistinguishable from that of Cdk4 single-mutant mice. Mice lacking p27(Kip1) develop widespread hyperplasia and organomegaly similar to those developed by p18-deficient mice. The p27; Cdk4 double-mutant mice, however, displayed phenotypes intermediate between those of p27 and Cdk4 single-mutant mice. These results provide genetic evidence that in mice p18(Ink4c) and p27(Kip1) mediate the transduction of different cell growth and proliferation signals to CDK4 and that p18(Ink4c) is functionally dependent on CDK4. 相似文献
909.
Staphylococcal nuclease (SNase) is a well-established model for protein folding studies. Its three-dimensional structure has been determined. The enzyme, Ca2+, and DNA or RNA substrate form a ternary complex. Glycine 20 is the second position of the first beta-turn of SNase, which may serve as the folding initiation site for the SNase polypeptide. To study the role of Gly20 in the conformational stability and catalysis of SNase, three mutants, in which Gly20 was replaced by alanine, valine, or isoleucine, were constructed and studied by using circular dichroism spectra, intrinsic and ANS-binding fluorescence spectra, stability and activity assays. The mutations have little effect on the conformational integrity of the mutants. However, the catalytic activity is reduced drastically by the mutations, and the stability of the protein is progressively decreased in the order G20A相似文献
910.
Five alternatively spliced mRNA isoforms of human caspase-1 have been identified previously and we report here the cloning of a new isoform, named CASP1 zeta (zeta), from human ovarian surface epithelial cell cDNA. The new isoform zeta is identical to the alpha isoform but missing 79 nucleotides in the coding region of the prodomain of procaspase-1. Analysis of the cDNA sequence of the zeta isoform revealed an ORF of a shorter protein missing the 39 amino acids at the amino terminal of procaspase-1alpha, which comprises the important caspase activating recruitment domain (CARD), which is required for interactions between caspases and other proteins. Secondary structure analysis of procaspase-1 CARD predicted the truncation of the alpha1, the alpha2, and part of the alpha3 helix in the zeta isoform in comparison to the full-length alpha isoform. The new zeta isoform was expressed in many, but not all, adult human tissues by RT-PCR. In HEK293 cells, transient overexpression of wild-type caspase-1zeta induced apoptosis to levels similar to those of caspase-1alpha. However, mutational change at the caspase-1 active center of the Cys 246 of caspase-1zeta, as well as Cys 285 of caspase-1alpha, completely abolished their apoptotic activity. Our findings suggest that caspase-1zeta is a widespread, new proapoptotic isoform of caspase-1. They also demonstrate that the first 39 amino acids of the N-terminal of the CARD in procaspase-1 are not required for its apoptotic activity. 相似文献