New fluorescent and photoactivable analogs acting on nucleotide binding enzymes

International audienceWe describe a seven-step synthesis of 8-azido-3′-O-anthraniloyl-2′dADP and 2′dATP from 8-azido-2′deoxyadenosine. These compounds can be used as fluorescent and photoactivable probes for the nucleotide-binding site of kinases or cyclases.These two analogs of ADP and ATP were synthesized and used as fluorescent and photoactivable probes for the nucleotide binding site of bacterial adenylate cyclase

Fine differences in structure and stability of bacterial adenylate kinases as revealed by IR difference spectroscopy

Changes in the protein backbone conformation and the microenvironment of some amino acids -- induced by point mutations in bacterial adenylate kinases -- were investigated by IR difference spectroscopy in conjunction with temperature and hydrogen-deuterium exchange measurements also monitored by IR.Peer reviewed: YesNRC publication: Ye

Characterization of ATP and calmodulin-binding properties of a truncated form of Bacillus anthracis adenylate cyclase

International audienceThe Bacillus anthracis cya gene encodes a calmodulin-dependent adenylate cyclase. A deletion cya gene product obtained by removing 261 codons at the 5' end was expressed in a protease-deficient loti' E. coli strain and purified to homogeneity. This truncated enzyme (CYA 62) exhibits catalytic and calmodulin-binding properties similar to the properties of wild-type adenylate cyclase from B. anthracis culture supernatants, i.e., a kcat of 1100 s"1 at 30 °C and pH 8, an apparent Km for ATP of 0.25 mM, and a Kd for bovine brain calmodulin of 23 nM. The calmodulin-binding domain of the CYA 62 truncated enzyme was labeled with a cleavable radioactive photoaffinity cross-linker coupled to calmodulin. The labeled CYA 62 protein was then cleaved with cyanogen bromide and A-chlorosuccinimide. We show that the calmo- dulin-binding domain of B. anthracis adenylate cyclase is located within the last 150 amino acid residues of the protein. A further deletion at the 3' end of the CYA 62 coding sequence yielded an adenylate cyclase species (CYA 57) lacking 127 C-terminal amino residues. CYA 57, still sensitive to activation by high concentrations of calmodulin, exhibits less than 0.1% of the specific activity of CYA 62. Binding of 3'dATP (a competitive inhibitor) to CYA 62 was determined by equilibrium dialysis. In the absence of calmodulin, binding of the ATP analogue to this truncated protein was severely impaired, which explains, at least in part, the absolute requirement for calmodulin for the catalytic activity of B. anthracis adenylate cyclase

Conversion of Methionine to Cysteine in Bacillus subtilis and Its Regulation

Bacillus subtilis can use methionine as the sole sulfur source, indicating an efficient conversion of methionine to cysteine. To characterize this pathway, the enzymatic activities of CysK, YrhA and YrhB purified in Escherichia coli were tested. Both CysK and YrhA have an O-acetylserine-thiol-lyase activity, but YrhA was 75-fold less active than CysK. An atypical cystathionine β-synthase activity using O-acetylserine and homocysteine as substrates was observed for YrhA but not for CysK. The YrhB protein had both cystathionine lyase and homocysteine γ-lyase activities in vitro. Due to their activity, we propose that YrhA and YrhB should be renamed MccA and MccB for methionine-to-cysteine conversion. Mutants inactivated for cysK or yrhB grew similarly to the wild-type strain in the presence of methionine. In contrast, the growth of an ΔyrhA mutant or a luxS mutant, inactivated for the S-ribosyl-homocysteinase step of the S-adenosylmethionine recycling pathway, was strongly reduced with methionine, whereas a ΔyrhA ΔcysK or cysE mutant did not grow at all under the same conditions. The yrhB and yrhA genes form an operon together with yrrT, mtnN, and yrhC. The expression of the yrrT operon was repressed in the presence of sulfate or cysteine. Both purified CysK and CymR, the global repressor of cysteine metabolism, were required to observe the formation of a protein-DNA complex with the yrrT promoter region in gel-shift experiments. The addition of O-acetyl-serine prevented the formation of this protein-DNA complex

High-level production of recombinant sulfide-reactive hemoglobin I from Lucina pectinata in Escherichia coli. High yields of fully functional holoprotein synthesis in the BLi5 E. coli strain.

International audienceHemoglobin I (HbI) from Lucina pectinata is a monomeric protein composed of 143 amino acids with high sulfide affinity. Its unique heme pocket contains three residues not commonly found in vertebrate globins: Phe 29 (B10), Gln 64 (E7), and Phe 68 (E11), which are thought to be important for high affinity for hydrogen sulfide. Recombinant HbI (rHbI) and several site-directed mutants were cloned and expressed in Escherichia coli yielding high amounts of protein. The highest rHbI protein yield was obtained when the HbI cDNA was cloned into the pET28 (a+) expression vector, transformed into BLi5 cells, the induction performed with 1 mM IPTG at 30 degrees C and TB medium was supplemented with 30 microg/mL hemin chloride and 1% glucose. The highest yield obtained of HbI was 32 mg/L of culture using Fernbach flasks. UV/Visible spectral analysis showed that rHbI binds heme and ESI-MS shows that its molecular weight corresponds to the expected size. Kinetic studies with H2S confirmed that rHbI and HbI have identical binding properties, where the kON for the clam's Hb is 2.73x10(4)M-1s-1 and for rHbI is 2.43x10(4)M-1s-1

Structural and physico-chemical characteristics of IBordetella pertussis adenylate kinase, a tryptophan-containing enzyme

The adk gene from the Gram-negative pathogen Bordetella pertussis was cloned by complementing the thermosensitive Escherichia coli adk strain CR341T28. B. pertussis adenylate kinase is a 218-amino-acid protein that has high similarity with adenylate kinase from Escherichia coli and Hemophilus influenzae (57%). A distinct characteristic of enzyme from B. pertussis, not found in other bacterial adenylate kinases, is the presence of a tryptophan residue at position 185. Although distant from the catalytic site, this single tryptophan serves as a convenient probe for monitoring the binding of nucleotide substrates or analogs to the enzyme. Differential scanning calorimetry and equilibrium unfolding experiments in guanidine \ub7 HCl indicate similar stabilities for adenylate kinase from B. pertussis and E. coli. An extensive comparison between physico-chemical properties of adenylate kinase from B. pertussis and the enzyme from E. coli showed that the kinetic and structural properties of the two enzymes are very similar. However, infrared spectroscopy has allowed to identify small but significant differences in the secondary structure of the two proteins.Peer reviewed: YesNRC publication: Ye