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31.
HK97 is an exceptionally amenable system for characterizing major conformational changes associated with capsid maturation in double-stranded DNA bacteriophage. HK97 undergoes a capsid expansion of ∼ 20%, accompanied by major subunit rearrangements during genome packaging. A previous 3.44-Å-resolution crystal structure of the mature capsid Head II and cryo-electron microscopy studies of other intermediate expansion forms of HK97 suggested that, primarily, rigid-body movements facilitated the maturation process. We recently reported a 3.65-Å-resolution structure of the preexpanded particle form Prohead II (P-II) and found that the capsid subunits undergo significant refolding and twisting of the tertiary structure to accommodate expansion. The P-II study focused on major twisting motions in the P-domain and on refolding of the spine helix during the transition. Here we extend the crystallographic comparison between P-II and Head II, characterizing the refolding events occurring in each of the four major domains of the capsid subunit and their effect on quaternary structure stabilization. In addition, hydrogen/deuterium exchange, coupled to mass spectrometry, was used to characterize the structural dynamics of three distinct capsid intermediates: P-II, Expansion Intermediate, and the nearly mature Head I. Differences in the solvent accessibilities of the seven quasi-equivalent capsid subunits, attributed to differences in secondary and quaternary structures, were observed in P-II. Nearly all differences in solvent accessibility among subunits disappear after the first transition to Expansion Intermediate. We show that most of the refolding is coupled to this transformation, an event associated with the transition from asymmetric to symmetric hexamers.  相似文献   
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The factor inhibiting HIF-1 (FIH-1) hydroxylates many ankyrin repeat-containing proteins including IκBα. It is widely speculated that hydroxylation of IκBα has functional consequences, but the effects of hydroxylation have not been demonstrated. We prepared hydroxylated IκBα and compared it to the unhydroxylated protein. Urea denaturation and amide H/D exchange experiments showed no change in the “foldedness” upon hydroxylation. Surface plasmon resonance measurements of binding to NFκB showed no difference in the NFκB binding kinetics or thermodynamics. Ubiquitin-independent proteasomal degradation experiments showed no difference in the half-life of the protein. Thus, it appears that hydroxylation of IκBα by FIH-1 is inconsequential, at least for the functions we could assay in vitro.

Structured summary

MINT-8051494: NF-kappa-B p65 (uniprotkb:Q04207) physically interacts (MI:0915) with NF-kappa-B p50 (uniprotkb:P25799) and I-kappa-B alpha (uniprotkb:O15111) by surface plasmon resonance (MI:0107)  相似文献   
35.
Jennings LL  Malecki M  Komives EA  Taylor P 《Biochemistry》2003,42(37):11083-11091
A sensitive matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry procedure has been established for the detection and quantitation of acetylcholinesterase (AChE) inhibition by organophosphate (OP) compounds. Tryptic digests of purified recombinant mouse AChE (mAChE) were fractionally inhibited by paraoxon to form diethyl phosphoryl enzyme. The tryptic peptide of mAChE that contains the active center serine residue resolves to a molecular mass of 4331.0 Da. Phosphorylation of the enzyme by paraoxon results in covalent modification of the active center serine and a corresponding increase in molecular mass of the tryptic peptide by 136 Da. The relative abundance of AChE peptides containing a modified active center serine strongly correlates with the fractional inhibition of the enzyme, achieving a detection range of phosphorylated to nonphosphorylated enzyme of 5-95%. Modifications of AChE by OP compounds resulting in dimethyl, diethyl, and diisopropyl phosphoryl adducts have been monitored with subpicomole amounts of enzyme. The individual phosphorylated adducts of AChE that result from loss of one alkyl group from the inhibited enzyme (the aging reaction) and the reappearance of unmodified AChE (spontaneous reactivation) have been resolved by the kinetic profiles and relative abundance of species. Further, the tryptic peptide containing the active center serine of AChE, isolated from mouse brain by anion-exchange and affinity chromatography, has been monitored by mass spectrometry. Native brain AChE, purified from mice treated with sublethal doses of metrifonate, has demonstrated that enzyme modifications resulting from OP exposure can be detected in a single mouse brain. For dimethyl phosphorylated AChE, OP exposure has been monitored by the ratio of tryptic peptide peaks that correspond to unmodified (uninhibited and/or reactivated), inhibited, and aged enzyme.  相似文献   
36.
Wood MJ  Becvar LA  Prieto JH  Melacini G  Komives EA 《Biochemistry》2003,42(41):11932-11942
Oxidation of Met 388, one of the three linker residues connecting the fourth and fifth EGF-like domains of thrombomodulin (TM), is deleterious for TM activity. An NMR structure of the smallest active fragment of TM (TMEGF45) and a crystal structure of a larger fragment (TMEGF456) bound to thrombin both show that Met 388 is packed into the fifth domain. Using multidimensional NMR, we have solved the structure of TMEGF45 in which Met 388 is oxidized (TMEGF45ox) and the structure of TMEGF45 in which Met 388 is mutated to Leu (TMEGF45ML). Comparison of the structures shows that the fifth domain has a somewhat different structure depending on the residue at position 388, and several of the thrombin-binding residues are packed into the fifth domain in the oxidized protein while they are exposed and free to interact with thrombin in the native structure and the Met-Leu mutant. This observation is consistent with kinetic measurements showing that the K(m) for TMEGF45ox binding to thrombin is 3.3-fold higher than for the native protein. Most importantly, the connection between the two domains, as indicated by interdomain NOEs, appears to be essential for activity. In the TMEGF45ox structure which has a reduced k(cat) for protein C activation by the thrombin-TMEGF45ox complex, interaction between the two domains is lost. Conversely, a tighter connection is observed between the two domains in TMEGF45ML, which has a higher k(cat) for protein C activation by the thrombin-TMEGF45ML complex.  相似文献   
37.
EA Ryan  LF Mockros  AM Stern    L Lorand 《Biophysical journal》1999,77(5):2827-2836
We investigated the origins of greater clot rigidity associated with FXIIIa-dependent cross-linking. Fibrin clots were examined in which cross-linking was controlled through the use of two inhibitors: a highly specific active-center-directed synthetic inhibitor of FXIIIa, 1,3-dimethyl-4,5-diphenyl-2[2(oxopropyl)thio]imidazolium trifluoromethylsulfonate, and a patient-derived immunoglobulin directed mainly against the thrombin-activated catalytic A subunits of thrombin-activated FXIII. Cross-linked fibrin chains were identified and quantified by one- and two-dimensional gel electrophoresis and immunostaining with antibodies specific for the alpha- and gamma-chains of fibrin. Gamma-dimers, gamma-multimers, alpha(n)-polymers, and alpha(p)gamma(q)-hybrids were detected. The synthetic inhibitor was highly effective in preventing the production of all cross-linked species. In contrast, the autoimmune antibody of the patient caused primarily an inhibition of alpha-chain cross-linking. Clot rigidities (storage moduli, G') were measured with a cone and plate rheometer and correlated with the distributions of the various cross-linked species found in the clots. Our findings indicate that the FXIIIa-induced dimeric cross-linking of gamma-chains by itself is not sufficient to stiffen the fibrin networks. Instead, the augmentation of clot rigidity was more strongly correlated with the formation of gamma-multimers, alpha(n)-polymers, and alpha(p)gamma(q)-hybrid cross-links. A mechanism is proposed to explain how these cross-linked species may enhance clot rigidity.  相似文献   
38.
Thrombomodulin (TM) forms a 1:1 complex with thrombin. Whereas thrombin alone cleaves fibrinogen to make the fibrin clot, the thrombin-TM complex cleaves protein C to initiate the anticoagulant pathway. The fourth and fifth EGF-like domains of TM together form the minimal fragment with anticoagulant cofactor activity. A short linker connects the fourth and fifth EGF-like domains of TM, and Met 388 in the middle of the linker interacts with both domains. Several different structures of TMEGF45 variants are now available, and these show that mutation of Met 388 alters the structure of the fifth domain, as well as the connectivity of the two domains. To probe this phenomenon more thoroughly, NMR backbone dynamics experiments have been carried out on the individual fourth and fifth domains as well as on the wild type, the Met 388 Leu mutant, and the variant in which Met 388 is oxidized. The results presented here show that changes at Met 388 cause significant changes in backbone dynamics in both the fourth and fifth EGF-like domains of TM. Backbone dynamics within the small loop of the fourth domain Tyr 358 correlate with anticoagulant cofactor activity. Backbone dynamics of the thrombin-binding residues Tyr 413 and Ile 414 are inversely correlated with thrombin binding. The preordering of the backbone of Tyr 413 and Ile 414 only occurs in the two-domain fragments, revealing a role for the fourth domain in thrombin binding as well as in anticoagulant cofactor activity.  相似文献   
39.
Bacillus methanolicus has been proposed as a biocatalyst for the low cost production of commodity chemicals. The organism can use methanol as sole carbon and energy source, and it grows aerobically at elevated temperatures. Methanol can be made available from off-shore conversion of natural gas to methanol, through gas-to-liquid technology. Growth of the organism in seawater-based medium would further reduce the costs of chemical production performed near an off-shore natural gas source. The growth of strain PB1 (ATCC 51375) in shake flask experiments with trypticase soy broth medium showed minimal salt-inhibition at the concentration of NaCl in seawater. The ability of B. methanolicus PB1 to grow in Pacific Ocean water using methanol as a carbon and energy source was also tested. Following a simple adaptation procedure, PB1 was able to grow on methanol in semi-defined medium with 100% seawater with good growth yields and similar growth rates compared with those achieved on media prepared in deionized water.  相似文献   
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