In this study, we used high-speed video microscopy with motion vector analysis to investigate the contractile characteristics of hiPS-CM monolayer, in addition to further characterizing the motion with extracellular field potential (FP), traction force and the Ca(2+) transient. Results of our traction force microscopy demonstrated that the force development of hiPS-CMs correlated well with the cellular deformation detected by the video microscopy with motion vector analysis. In the presence of verapamil and isoproterenol, contractile motion of hiPS-CMs showed alteration in accordance with the changes in fluorescence peak of the Ca(2+) transient, i.e., upstroke, decay, amplitude and full-width at half-maximum. Simultaneously recorded hiPS-CM motion and FP showed that there was a linear correlation between changes in the motion and field potential duration in response to verapamil (30-150nM), isoproterenol (0.1-10μM) and E-4031 (10-50nM). In addition, tetrodotoxin (3-30μM)-induced delay of sodium current was corresponded with the delay of the contraction onset of hiPS-CMs. These results indicate that the electrophysiological and functional behaviors of hiPS-CMs are quantitatively reflected in the contractile motion detected by this image-based technique. In the presence of 100nM E-4031, the occurrence of early after-depolarization-like negative deflection in FP was also detected in the hiPS-CM motion as a characteristic two-step relaxation pattern. These findings offer insights into the interpretation of the motion kinetics of the hiPS-CMs, and are relevant for understanding electrical and mechanical relationship in hiPS-CMs.
A large-scale sequence analysis of rice cDNA was performed for a library from rice callus cultured in a medium containing 1 p.p.m. of 2,4-dichlorophenoxyacetic acid. Random sequencing of 2778 cDNA clones generated 2259 non-redundant expressed sequence tags (ESTs). The strategy of sequencing cDNAs can yield quickly a large number of novel genes. After translation, 690 sequences showed a significant amino acid sequence similarity to sequences already known from PIR. The source of known proteins ranged from bacteria to human. In this report, the non-redundant set of 280 identified ESTs is analyzed in detail.
The kinetic parameters (kcat/Km) and the cleaved-bond distributions for the hydrolysis of linear maltooligosaccharides Gn (3 less than or equal to n less than or equal to 9) by Saccharomycopsis alpha-amylase (Sfamy) secreted from Saccharomyces cerevisiae were determined at pH 5.25 and 25 degrees C. The subsite affinities of Sfamy were also evaluated from these data. The subsite structure of Sfamy is characteristic of the active site of an endo-cleavage type enzyme, consisting of internal repulsive sites with the catalytic residues and external attractive sites. Moreover, the pKa values of the catalytic residues were calculated from the pH dependence plot of the kinetic parameter (kcat/Km). The amino acid residues which contribute to the subsite affinities and the catalytic activity of Sfamy are proposed and compared with those of Taka-amylase A.
Aromatic amino acid aminotransferase (ArATPh), which has a melting temperature of 120°C, is one of the most thermostable aminotransferases yet to be discovered. The crystal structure of this aminotransferase from the hyperthermophilic archaeon Pyrococcus horikoshii was determined to a resolution of 2.1 Å. ArATPh has a homodimer structure in which each subunit is composed of two domains, in a manner similar to other well characterized aminotransferases. By the least square fit after superposing on a mesophilic ArAT, the ArATPh molecule exhibits a large deviation of the main chain coordinates, three shortened ␣-helices, an elongated loop connecting two domains, and a long loop transformed from an ␣-helix, which are all factors that are likely to contribute to its hyperthermostability. The pyridine ring of the cofactor pyridoxal 5-phosphate covalently binding to Lys 233 is stacked parallel to F121 on one side and interacts with the geminal dimethyl-CH/ groups of Val 201 on the other side. This tight stacking against the pyridine ring probably contributes to the hyperthermostability of ArATPh. Compared with other ArATs, ArATPh has a novel substrate specificity, the order of preference being Tyr > Phe > Glu > Trp > His > > Met > Leu > Asp > Asn. Its relatively weak activity against Asp is due to lack of an arginine residue corresponding to Arg 292 * (where the asterisk indicates that this is a residues supplied by the other subunit of the dimer) in pig cytosolic aspartate aminotransferase. The enzyme recognizes the aromatic substrate by hydrophobic interaction with aromatic rings (Phe 121 and Tyr 59 *) and probably recognizes acidic substrates by a hydrophilic interaction involving a hydrogen bond network with Thr 264 *.
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