The Plant Wound Hormone Systemin Binds with the N-Terminal Part to Its Receptor but Needs the C-Terminal Part to Activate It

SummaryA new congenital dysfibrinogen, Fibrinogen Bastia, was discovered in a 20-year-old woman with no clinical symptoms. The plasma thrombin-clotting time was severely prolonged. The functional plasma fibrinogen concentration was low (0.2 mg/ml), whereas the immunological concentration was normal (2.9 mg/ml). Purified fibrinogen Bastia displayed a markedly prolonged thrombin-clotting time related to a delayed thrombin-induced fibrin polymerization. Both the thrombin-clotting time and the fibrin polymerization were partially corrected by the addition of calcium ions. The anomaly of fibrinogen Bastia was found to be located in the γ-chain since by SDS-PAGE performed according to the method of Laemmli two γ-chains were detected, one normal and one with an apparently lower molecular weight. Furthermore, analysis of plasmin degradation products demonstrated that calcium ions only partially protect fibrinogen Bastia γ-chain against plasmin digestion, suggesting that the anomaly is located in the C-terminal part of the γ-chain. Sequence analysis of PCR-amplified genomic DNA fragments of the propositus demonstrated a single base substitution (G → T) in the exon VIII of the γ chain gene, resulting in the amino acid substitution 318 Asp (GAC) → Tyr (TAC). The PCR clones were recloned and 50% of them contained the mutation, indicating that the patient was heterozygous. These data indicate that residue Asp 318 is important for normal fibrin polymerization and the protective effect of calcium ions against plasmin degradation of the C-terminal part of the γ-chain.

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Study for the derating curve of surface mount fixed resistors. Derating curves based on terminal part temperature

10.3403/30350960 ◽

2017 ◽

Keyword(s):

Terminal Part ◽

Surface Mount

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C-Terminal amino acid sequence of chicken pepsinogen and its homology with sequences of other acid proteases

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19801144 ◽

1980 ◽

Vol 45 (4) ◽

pp. 1144-1154 ◽

Cited By ~ 3

Author(s):

Miroslav Baudyš ◽

Helena Keilová ◽

Vladimír Kostka

Keyword(s):

Amino Acid ◽

Amino Acid Sequence ◽

The Other ◽

Terminal Sequence ◽

Terminal Part ◽

Terminal Amino Acid ◽

Tryptic Peptides ◽

Terminal Amino ◽

High Degree ◽

Terminal Amino Acid Sequence

To determine the primary structure of the C-terminal part of the molecule of chicken pepsinogen the tryptic, chymotryptic and thermolytic digest of the protein were investigated and peptides derived from this region were sought. These peptides permitted the following 21-residue C-terminal sequence to be determined: ...Ile-Arg-Glu-Tyr-Tyr-Val-Ile-Phe-Asp-Arg-Ala-Asn-Asn-Lys-Val-Gly-Leu-Ser-Pro-Leu-Ser.COOH. A comparison of this structure with the C-terminal sequential regions of the other acid proteases shows a high degree of homology between chicken pepsinogen and these proteases (e.g., the degree of homology with respect to hog pepsinogen and calf prochymosin is about 66%). Additional tryptic peptides, derived from the N-terminal part of the zymogen molecule whose amino acid sequence has been reported before, were also obtained in this study. This sequence was extended by two residues using an overlapping peptide. An ancillary result of this study was the isolation of tryptic peptides derived from other regions of the zymogen molecule.

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Synthesis of (1→4)-linked galacturonic acid trisaccharides, a proposed plant wound-hormone and a stereoisomer

Carbohydrate Research ◽

10.1016/0008-6215(90)84203-7 ◽

1990 ◽

Vol 200 ◽

pp. 363-375 ◽

Cited By ~ 22

Author(s):

Yoshiaki Nakahara ◽

Tomoya Ogawa

Keyword(s):

Galacturonic Acid ◽

Wound Hormone

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Sequence Analysis of the 5′-Terminal Part of GLU-D1 Locus of Landraces and Old Cultivars of Wheat (Triticum aestivum)

Cereal Research Communications ◽

10.1007/bf03543623 ◽

2000 ◽

Vol 28 (4) ◽

pp. 411-416

Author(s):

J. Ovesná ◽

S. Svobodová ◽

I. Nováková ◽

L. Dotlačil

Keyword(s):

Triticum Aestivum ◽

Sequence Analysis ◽

Terminal Part

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Primary structure of human alpha 2-macroglobulin. IV. Primary structure of two large CNBr fragments, located in the COOH-terminal part and accounting for 337 residues.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(17)39729-6 ◽

1984 ◽

Vol 259 (13) ◽

pp. 8313-8317 ◽

Cited By ~ 4

Author(s):

T Kristensen ◽

D M Wierzbicki ◽

L Sottrup-Jensen

Keyword(s):

Primary Structure ◽

Terminal Part

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Mycoplasma synoviae lipoprotein MSPB, the N-terminal part of VlhA haemagglutinin, induces secretion of nitric oxide, IL-6 and IL-1β in chicken macrophages

Veterinary Microbiology ◽

10.1016/j.vetmic.2006.12.005 ◽

2007 ◽

Vol 121 (3-4) ◽

pp. 278-287 ◽

Cited By ~ 19

Author(s):

Miha Lavrič ◽

Dušan Benčina ◽

Sonja Kothlow ◽

Bernd Kaspers ◽

Mojca Narat

Keyword(s):

Nitric Oxide ◽

Terminal Part ◽

Mycoplasma Synoviae

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The Interplay of Cholesterol and Ligand Binding in hTSPO from Classical Molecular Dynamics Simulations

Molecules ◽

10.3390/molecules26051250 ◽

2021 ◽

Vol 26 (5) ◽

pp. 1250

Author(s):

Hien T. T. Lai ◽

Alejandro Giorgetti ◽

Giulia Rossetti ◽

Toan T. Nguyen ◽

Paolo Carloni ◽

...

Keyword(s):

Molecular Dynamics ◽

Ligand Binding ◽

Molecular Dynamics Simulations ◽

Binding Site ◽

Transmembrane Protein ◽

Free Form ◽

Experimental Investigations ◽

Terminal Part ◽

Dynamics Simulations ◽

Cholesterol Binding

The translocator protein (TSPO) is a 18kDa transmembrane protein, ubiquitously present in human mitochondria. It is overexpressed in tumor cells and at the sites of neuroinflammation, thus representing an important biomarker, as well as a promising drug target. In mammalian TSPO, there are cholesterol–binding motifs, as well as a binding cavity able to accommodate different chemical compounds. Given the lack of structural information for the human protein, we built a model of human (h) TSPO in the apo state and in complex with PK11195, a molecule routinely used in positron emission tomography (PET) for imaging of neuroinflammatory sites. To better understand the interactions of PK11195 and cholesterol with this pharmacologically relevant protein, we ran molecular dynamics simulations of the apo and holo proteins embedded in a model membrane. We found that: (i) PK11195 stabilizes hTSPO structural fold; (ii) PK11195 might enter in the binding site through transmembrane helices I and II of hTSPO; (iii) PK11195 reduces the frequency of cholesterol binding to the lower, N–terminal part of hTSPO in the inner membrane leaflet, while this impact is less pronounced for the upper, C–terminal part in the outer membrane leaflet, where the ligand binding site is located; (iv) very interestingly, cholesterol most frequently binds simultaneously to the so-called CRAC and CARC regions in TM V in the free form (residues L150–X–Y152–X(3)–R156 and R135–X(2)–Y138–X(2)–L141, respectively). However, when the protein is in complex with PK11195, cholesterol binds equally frequently to the CRAC–resembling motif that we observed in TM I (residues L17–X(2)–F20–X(3)–R24) and to CRAC in TM V. We expect that the CRAC–like motif in TM I will be of interest in future experimental investigations. Thus, our MD simulations provide insight into the structural features of hTSPO and the previously unknown interplay between PK11195 and cholesterol interactions with this pharmacologically relevant protein.

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