General information | Literature | Expression | Regulation | Mutation | Interaction |
Basic Information |
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Gene ID | 11068 |
Name | CYB561D2 |
Synonymous | 101F6|TSP10|XXcos-LUCA11.4;cytochrome b561 family, member D2;CYB561D2;cytochrome b561 family, member D2 |
Definition | cytochrome b561 domain-containing protein 2|putative tumor suppressor protein 101F6 |
Position | 3p21.3 |
Gene type | protein-coding |
Title |
Abstract |
Functional expression and characterization of human 101F6 protein, a homologue of cytochrome b561 and a candidate tumor suppressor gene product. | A highly hydrophobic protein with six transmembrane structure that is coded by the candidate tumor suppressor gene 101F6 located in the human chromosome 3p.21.3 and a possible member of the cytochrome b 561 protein family was expressed, purified, and characterized in its functional form for the first time. The protein was heterologously expressed in methylotrophic yeast Pichia pastoris as a fusion protein containing a C-terminal thrombin-specific sequence and an 8-His residue tag. Purification was achieved by ion exchange chromatography on DEAE-Sepharose and affinity chromatography on Ni-NTA-Sepharose. SDS-PAGE analysis revealed a single protein band with an estimated molecular weight of 26 kDa, while Western blot and MALDI-TOF-MS analysis confirmed the presence of the cytochrome b561 specific sequence in the protein. The 101F6 protein was found to be reducible by ascorbate efficiently and to have two midpoint potentials at +89.5 and +13.1 mV, slightly lower than the corresponding values of +155 and +62 mV, respectively, of bovine adrenal cytochrome b 561, despite a lower conservation of the putative ascorbate binding site sequence in the 101F6 protein. The "modified motif 1" sequence unique in 101F6 protein may be responsible for other molecular functions, such as protein-protein interactions, in the endoplasmic membranes. |
Spectral characterization of the recombinant mouse tumor suppressor 101F6 protein. | tumor suppressor protein 101F6, a gene product of the 3p21.3 (human) and 9F1 (mouse) chromosomal region, has recently been identified as a member of the cytochrome b561 (Cyt-b561) protein family by sequence homology. The His(6)-tagged recombinant mouse tumor suppressor Cyt-b561 protein (TSCytb) was recently expressed in yeast and purified, and the ascorbate reducibility was determined. TSCytb is auto-oxidizable and has two distinct heme b centers with redox potentials of approximately 40 and approximately 140 mV. Its split alpha-band in the dithionite-reduced spectrum at both 295 and 77 K is well resolved, and the separation between the two alpha-peaks is approximately 7 nm (approximately 222 cm(-1)). Singular value decomposition analysis of the split alpha-band in the ascorbate-reduced spectra revealed the presence of two major spectral components, each of them with split alpha-band but with different peak separations (6 and 8 nm). Similar minor differences in peak separation were obtained when the split alpha-bands in ascorbate-reduced difference spectra at low (<1 mM) and high (>10 mM) ascorbate concentrations were analysed. According to low-temperature electron paramagnetic resonance (EPR) spectroscopy, the two heme b centers are in the low-spin ferric state with maximum principal g values of 3.61 and 2.96, respectively. These values differ from the ones observed for other members of the Cyt-b561 family. According to resonance Raman spectroscopy, the porphyrin rings are in a relaxed state. The spectroscopic results are only partially in agreement with those obtained earlier for the native chromaffin granule Cyt-b561. |