Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.24.27 (
thermolysin
)
1,894
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We synthesized five peptides homologous to the potentially antigenic positions alpha(214-226), alpha(430-443), alpha(415-443), beta(241-256), and beta(412-431) of the porcine brain tubulin sequences. These peptides were successfully employed to raise tubulin-cross-reactive antibodies. The antibodies are specific of the regions of tubulin spanned by the peptides. They react specifically with the tubulin bands in immunoblots and with microtubules in immunofluorescence assays of cytoskeletons. The peptides of the C-terminal regions have also been employed to localize determinants recognized by two available monoclonal antibodies to tubulin in the positions alpha(415-430) and beta(412-431), respectively. In a first application of the anti-peptide antibodies, we have mapped the fragments of limited proteolysis of purified calf brain tubulin by trypsin, chymotrypsin, papain,
thermolysin
, subtilisin, and protease V8 from Staphylococcus aureus. Thirty-seven peptides have been identified, of which 32 have been unequivocally aligned into the tubulin sequences on the basis of their antigenic reactivity. There are three major, well-defined zones of preferential cleavage by the proteases: the C-termini and two internal zones in each chain. C-Terminal cleavages of both chains by subtilisin do not remove the antigenic reactivity of the zones alpha(415-430) and beta(412-431). C-Terminal cleavages by protease V8 are preferential of
beta-tubulin
. All six proteases tested cleave alpha- and/or
beta-tubulin
at one or both of the internal zones. These zones are located roughly at one-third and two-thirds of the chain length in both subunits. Therefore, a model of the tubulin monomers is proposed which consists of three major, proteolytically defined, compact regions (N-terminal, middle, and C-terminal thirds) and the cleavable zones. This model is discussed with the tubulin structural information presently available.
...
PMID:Tubulin structure probed with antibodies to synthetic peptides. Mapping of three major types of limited proteolysis fragments. 245 62
Several types of post-translational modifications contribute to the high level of tubulin heterogeneity in the brain. An important modification is glutamylation of the major brain-specific isotypes, such as class Ia/b of alpha-tubulin and classes II and III of
beta-tubulin
. Here we describe experiments to determine if additional, minor tubulin isotypes, expressed in adult mouse brain, could also be glutamylated. Purified tubulin from adult mouse brain was cleaved with
thermolysin
. Proteolytically released carboxy-terminal peptides of both alpha- and
beta-tubulin
were isolated by sequential anion exchange and reverse-phase column-chromatography. Anionic peptides were then characterized by amino acid sequencing and mass spectrometry. We show that brain-specific class IVa and constitutive class I
beta-tubulin
isotypes can be glutamylated, at Glu434 and Glu441, respectively.
...
PMID:Class I and IVa beta-tubulin isotypes expressed in adult mouse brain are glutamylated. 792 30
Native tubulin alpha beta dimers and microtubules have been subjected to limited proteolysis with trypsin, chymotrypsin, elastase, clostripain, proteinase lysine-C,
thermolysin
, protease V8, papain, subtilisin, proteinase K, proteinase aspartic-N, and bromelain. Eighty nicking points have been mapped onto the alpha- and
beta-tubulin
sequences with the aid of site-directed antibodies, of which 18 sites have been exactly determined by N-terminal sequencing, and the probable position of 6 others deduced from protease specificities. Proteolytic sites cluster into five characteristic zones, including the C termini of both chains. Residues accessible to proteases in the tubulin dimer include alpha-tubulin Lys40-Thr41-Ile42, Glu168-Phe169-Ser170, Ser178-Thr179-Ala180-Val181, Lys280-Ala281, Glu290-Ile291, Ala294-Cys295, Arg339-Ser340 (plus probably Lys60-His61 and Glu183-Pro184) and
beta-tubulin
Gly93-Gln94, Lys174-Val175, Gly277-Ser278, Tyr281-Arg282-Ala283, Cys354-Asp355 (plus probably Arg121-Lys122, Phe167-Ser168, Tyr183-Asn184, and Glu426-Asp427 or Ala430-Asp431). While the majority of these sites remain accessible at the outer surface of taxol-induced microtubules, alpha-tubulin Lys280-Ala281, Arg339-Ser340 and
beta-tubulin
Tyr281-Arg282-Ala283 (and probably Arg121-Lys122) become protected from limited proteolysis, suggesting that they are close to or at intermolecular contacts in the assembled structure. The protease nicking points constitute sets of surface constraints for any three-dimensional model structures of tubulin and microtubules. The dimer tryptic site at alpha-tubulin 339-340 jumps approximately 12-22 residues upstream (probably to Lys326-Asp327 or Lys311-Tyr312) in taxol microtubules, suggesting a tertiary structural change. The cleavage of the approximately 10 C-terminal residues of alpha-tubulin by protease V8, papain, and subtilisin is inhibited in taxol microtubules compared to tubulin dimers, while the approximately 20 C-terminal residues of
beta-tubulin
are similarly accessible to protease V8, subtilisin, proteinase K, proteinase AspN, and bromelain and show enhanced papain cleavage. This is consistent with models in which the alpha-tubulin C-terminal zone is near the interdimer contact zone along the protofilaments, whereas the C terminus of beta is near the interface between both subunits.
...
PMID:Mapping surface sequences of the tubulin dimer and taxol-induced microtubules with limited proteolysis. 891 4
