The potent antiproliferative activity of the macrolide antibiotic rapamycin is known to involve binding of the drug to its cytosolic receptor, FKBP12, and subsequent interaction with targets of rapamycin, resulting in inhibition of p70 S6 kinase (p70S6K). However, the downstream events that lead to inhibition of cell cycle progression remain to be elucidated. The antiproliferative effects of rapamycin are associated with prevention of mitogen-induced downregulation of the cyclin-dependent kinase inhibitor p27Kip1, suggesting that the latter may play an important role in the growth pathway targeted by rapamycin. Murine BC3H1 cells, selected for resistance to growth inhibition by rapamycin, exhibited an intact p70S6K pathway but had abnormally low p27 levels that were no longer responsive to mitogens or rapamycin. Fibroblasts and T lymphocytes from mice with a targeted disruption of the p27Kip1 gene had impaired growth-inhibitory responses to rapamycin. These results suggest that the ability to regulate p27Kip1 levels is important for rapamycin to exert its antiproliferative effects. 相似文献
DNA ligases play a pivotal role in DNA replication, repair and recombination. Reactions catalyzed by DNA ligases consist of three steps: adenylation of the ligase in the presence of ATP or NAD+, transferring the adenylate moiety to the 5'-phosphate of the nicked DNA substrate (deadenylation) and sealing the nick through the formation of a phosphodiester bond. Thermus thermophilus HB8 DNA ligase (Tth DNA ligase) differs from mesophilic ATP-dependent DNA ligases in three ways: (i) it is NAD+ dependent; (ii) its optimal temperature is 65 instead of 37 degrees C; (iii) it has higher fidelity than T4 DNA ligase. In order to understand the structural basis underlying the reaction mechanism of Tth DNA ligase, we performed site-directed mutagenesis studies on nine selected amino acid residues that are highly conserved in bacterial DNA ligases. Examination of these site-specific mutants revealed that: residue K118 plays an essential role in the adenylation step; residue D120 may facilitate the deadenylation step; residues G339 and C433 may be involved in formation of the phosphodiester bond. This evidence indicates that a previously identified KXDG motif for adenylation of eukaryotic DNA ligases [Tomkinson, A.E., Totty, N.F., Ginsburg, M. and Lindahl, T. (1991) Proc. Natl. Acad. Sci. USA, 88, 400-404] is also the adenylation site for NAD+-dependent bacterial DNA ligases. In a companion paper, we demonstrate that mutations at a different Lys residue, K294, may modulate the fidelity of Tth DNA ligase. 相似文献
Using fourteen random mitochondrial DNA probes, we have examined restriction fragment length polymorphism (RFLP) in wild and cultivatedHevea brasiliensis. A total of 395 accessions, including 345 from various prospectings collected in Brazil, Colombia and Peru and 50 cultivated clones, were analyzed. Two other species (H. benthamiana andH. pauciflora) were also included in the study for comparison. The high level of mitochondrial polymorphism allowed us to divide all the accessions analyzed into 212 distinct genotypes. The genetic variability of cultivated clones was limited to four genotypes forming two clusters. In contrast, considerable genetic variation was found in the wild collections. In almost all cases, accessions displaying the same RFLP profile were restricted to the same geographical area (same or neighbor administrative districts). In addition, accessions whose genetic closeness was predicted by RFLP profiles were also clustered according to geographical origin. In a few cases, however, similar RFLP profiles were found for accessions originating from geographically distant districts. This discrepancy can be explained either by seed dispersion (by river) or possibly by similar genetic events occurring independently in different geographical locations. Chloroplast DNA RFLP was also analyzed in 217 accessions, representative of 126 distinct mitochondrial genotypes. Very few differences were found, indicating that the chloroplast genome is more highly conserved than the mitochondrial genome. 相似文献
We report that 10- and 25-kDa toxin fragments adhere to CryIC prepared from Bacillus thuringiensis insecticidal crystals, block iodination, and alter membrane binding. There is no apparent affect on CryIC toxicity against Spodoptera exigua. Associated peptides remained bound to CryIC in the presence of 50 mM dithiothreitol or 6 M urea. A novel detergent-renaturation procedure was developed for the purification of B. thuringiensis CryIC toxin. Sodium dodecyl sulfate (SDS) treatment followed by gel filtration chromatography yielded a homogeneous 62-kDa CryIC toxin. After removal of SDS and renaturation, the purified CryIC toxin was fully insecticidal to S. exigua larvae. I-labeled CryIC bound with high affinity to brush border membrane vesicles from S. exigua larvae. 相似文献
Proteins form the specific selector in many biochemical sensors. A change in one of the properties of such a protein has to be detected by an appropriate transducer, which completes the biochemical sensor. One of these properties is the buffer capacity of a protein. If the binding of a substance to a protein can significantly change the proton binding, which accounts for the buffer capacity of proteins, the detection of this changed buffer capacity enables the construction of a new type of biosensor.
It will be shown that the buffer capacity can be measured with an ISFET-based sensor—actuator device. The alternating generation of protons and hydroxyl ions by alternating current coulometry at a porous noble metal actuator electrode causes an associated small pH perturbation, which is detected by the underlying pH-sensitive ISFET. The amplitude of the measured signal is a function of the buffer capacity of the solute, in which proteins can be present (or these proteins can be adsorbed in the porous actuator electrode of the device). A model describing the transfer function from the electrical input signal of the actuator to the resulting chemical output, which is subsequently detected by the ISFET pH sensor, is presented. Preliminary results of the measured buffer capacity of ribonuclease and lysozyme are presented. 相似文献