Variability in the N-terminal domain is further illustrated by superposition of the N-terminal domains of AlrSP and its closest available homolog,

AlrEF, which reveals BKM120 cell line significant deviations in Cα positions (≥1.8 Å) for five regions: residues 27-29, residues 53-58, residues 109-122, residues 150-156, and residues 192-196 (Figure 3B). The sequence in these regions is not highly conserved and they lie far from the Selleck LEE011 active site. Superposition of the C-terminal domains from these structures shows no region with Cα differences greater than 1.7 Å. Overall, alanine racemase structures seem to tolerate significant alterations in the backbone of the α/β-barrel and β-domain and still retain almost identical active site residue locations. Table 2 Average r.m.s. differences (Å) between the Cα atoms of AlrSP and alanine racemase structures from other Gram-positive bacteria   PDB ID Whole monomer N-terminus C-terminus Active site AlrGS 1SFT 1.23 (46%) 1.30 (41%) 0.57 (56%) 0.36 (66%) AlrSL 1VFH 1.57 (38%) 1.92 (34%) 1.24 (41%) 0.67 (46%) AlrBA 3HA1 1.29 (45%) 1.59 (41%) 0.49 (53%) 0.38 (65%) AlrEF 3E5P 1.16 (53%) 1.48 (52%) 0.54 (56%) 0.46 (71%) Numbers

in parenthesis denote sequence identity with AlrSP, (%sequence identity = Nidentity/Naligned). Table 3 Residues used in r.m.s. calculations     AlrEF AlrSP AlrGS AlrBA AlrSL N-terminus

monomer A 2-243 1-239 2-241 4-245 3-246 C-terminus monomer A 244-371 240-367 242-388 246-389 www.selleckchem.com/products/sn-38.html 247-378 Active site monomer A 38-44 38-44 37-43 39-45 36-42     62-66 61-65 61-65 63-67 60-64     83-87 82-86 82-86 84-88 81-85     100-104 101-105 101-105 103-107 100-104     128-141 125-138 125-138 127-140 125-138     164-172 160-168 161-169 163-171 163-171     201-208 197-204 198-205 203-210 203-210     219-226 215-222 216-223 221-228 221-228     353-360 349-356 351-358 356-363 358-365   monomer B 265-268 261-264 263-266 268-271 268-271     311-316 307-312 309-314 314-319 315-320 The kinetic properties for AlrSP [21] are within the range of those previously observed for other bacterial alanine racemases (Table 4). The KM for L-alanine is 1.9 mM and Vmax for the racemization of L- to D-alanine is 84.8 U/mg, where one unit Progesterone is defined as the amount of enzyme that catalyzes racemization of 1 μmol of substrate per minute. In the other direction, the KM for D-alanine is 2.1 mM and Vmax for the racemization of L- to D-alanine is 87.0 U/mg. However, the Vmax for the S. pneumoniae enzyme is more than one order of magnitude lower than that reported for the G. stearothermophilus and E. faecalis enzymes, even though the active site of AlrSP has high sequence and structural similarities with these alanine racemases. Differences of up to three orders of magnitude have been reported in this family despite very similar active sites.