regulation of Ca2+ between
the periplasm and the cytosol of Escherichia coli.
Cell Calcium, 32(4), 183-192 (2002).
6. Brandenburger, Y., et al., Measurement of
perimitochondrial Ca2+ concentration
serine protease family. The
active site amino acid residues of trypsin include His
46
and Ser
183
.
1,3
Trypsin consists of a single chain
polypeptide of 223 amino acid residues. Trypsin
protease family. The
active site amino acid residues of trypsin include His
46
and Ser
183
.
2-4
Trypsin consists of a single chain
polypeptide of 223 amino acid residues. Trypsin is
serine protease family. The
active site amino acid residues of trypsin include His
46
and Ser
183
.
1,3
Trypsin consists of a single chain
polypeptide of 223 amino acid residues. Trypsin
protease family. The
active site amino acid residues of trypsin include His
46
and Ser
183
.
2-4
Trypsin consists of a single chain
polypeptide of 223 amino acid residues. Trypsin is
protease family. The
active site amino acid residues of trypsin include His
46
and Ser
183
.
2-4
Trypsin consists of a single chain
polypeptide of 223 amino acid residues. Trypsin is
Optical rotation: [α]D
25°=+10.6° (c=0.5% in CDCl3)
4
Melting point: 183-188°C (dec.)2,4
METHOD OF PREPARATION:
Methods of preparation have been reported.4,5 The NMR, UV, IR, Mass spectra, Thin-Layer
GRB-2; Clone:GRB-232 G2791 Signal Transduction M y y y
182 IκB α I0505 Signal Transduction P y y y
183 NAK N2661 Signal Transduction M y n/d y
184 NF-κB; Clone:NF-12 N8523 Signal Transduction M y y n/
Frenkel, L. and Bremer, H. (1986) dna 5, 539-544.
4. Hecker, M., Riethdorf, S., Bauer, C., Schroeter, A. and Borriss, R. (1988) Mol. Gen. Genet. 215,
181-183.
5. Riethdorf, S., Schroeter, A. and Hecker
Laboratory Press.
4. Frenkel, L. and Bremer, H. (1986) dna 5, 539–544.
5. Hecker, M., Riethdorf, S., Bauer, C., Schroeter, A. and Borriss, R. (1988) Mol. Gen. Genet. 215,
181–183.
6.
C5922 1267 CNP M NP_149124.3 y y y
177 Collagen, Type IV C1926 1282 COL4A1 M NP_001836.2 y n/d n/d
183 β-COP G6160 1315 COPB1 M NP_001137533.1 y n/d y
45 ATF2 A4086 1386 ATF2 P NP_001871.2 y n/d n/d
46
C5922 1267 CNP M NP_149124.3 y y y
177 Collagen, Type IV C1926 1282 COL4A1 M NP_001836.2 y n/d n/d
183 β-COP G6160 1315 COPB1 M NP_001137533.1 y n/d y
45 ATF2 A4086 1386 ATF2 P NP_001871.2 y n/d n/d
46
C5922 1267 CNP M NP_149124.3 y y y
177 Collagen, Type IV C1926 1282 COL4A1 M NP_001836.2 y n/d n/d
183 β-COP G6160 1315 COPB1 M NP_001137533.1 y n/d y
45 ATF2 A4086 1386 ATF2 P NP_001871.2 y n/d n/d
46
Control NA
180 Connexin- 32 C6344 M y y y
181 Connexin- 43 C8093 M y y y
182 Connexin- 43 C6219 P y y y
183 β-COP G6160 M y n/d y
184 Cortactin C6987 P y y y
185 Corticotropin Releasing Factor
y
182 Connexin- 43 C6219 14609, 2697, 24392 Gja1,GJA1 NP_034418.1,NP_000156.1,NP_036699.1 P y y y
183 β-COP G6160 114023, 1315 Copb1,COPB1 NP_542959.1,NP_057535.1 M y n/d y
184 Cortactin C6987 2017
y
182 Connexin- 43 C6219 14609, 2697, 24392 Gja1,GJA1 NP_034418.1,NP_000156.1,NP_036699.1 P y y y
183 β-COP G6160 114023, 1315 Copb1,COPB1 NP_542959.1,NP_057535.1 M y n/d y
184 Cortactin C6987 2017