Peptide Information

General Information of This Peptide
Peptide ID
BTDP008451
Peptide Name
Potassium channel toxin alpha-KTx 1.5
Symonym
BmTX1; Neurotoxin TX1
Species
Mesobuthus martensii (Manchurian scorpion) (Buthus martensii)
Uniprot Name
KAX15_MESMA
Alphafold ID
Q9NII6
3D Structure
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2D Sequence
3D Structure
Source
RSCB PDB: 1BIG
Sequence
MKISFLLLALVICSIGWSEAQFTDVKCTGSKQCWPVCKQMFGKPNGKCMNGKCRCYS
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Sequence Length
57
Mass (Da)
6370
Signal Sequence
MKISFLLLALVICSIGWSEA
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Sequence Removed Signal Peptide
QFTDVKCTGSKQCWPVCKQMFGKPNGKCMNGKCRCYS
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Disulfide Bond
27-48;33-53;37-55
PDB ID
1BIG , 6AVC
        Click to Show/Hide the Complete Species Lineage
Kingdom: Metazoa
Phylum: Arthropoda
Class: Arachnida
Order: Scorpiones
Family: Buthidae
Genus: Mesobuthus
Species: Mesobuthus martensii
Full List of Activity Data of This Peptide Toxin
                        Target Name Activity Data Type Activity Data Concentration Note Reference
 Target Info    Kv1 IC50
0.09 nM
 .
Blocker
 [2- 24]
 Target Info    KCa1.1 IC50
0.65 nM
 .
Blocker
 [2- 24]
 Target Info    Kv1.3 IC50
1.5 nM
 .
Blocker
 [2- 24]
References
Ref 1 Genomic organization of three novel toxins from the scorpion Buthus martensi Karsch that are active on potassium channels. Biochem J. 2000 Mar 15;346 Pt 3(Pt 3):805-9.
Ref 2 Purification, characterization, and synthesis of three novel toxins from the Chinese scorpion Buthus martensi, which act on K+ channels. Biochemistry. 1997 Nov 4;36(44):13473-82. doi: 10.1021/bi971044w.
Ref 3 Solution structure of two new toxins from the venom of the Chinese scorpion Buthus martensi Karsch blockers of potassium channels. Biochemistry. 1998 Sep 8;37(36):12412-8. doi: 10.1021/bi9809371.
Ref 4 Screening, large-scale production and structure-based classification of cystine-dense peptides. Nat Struct Mol Biol. 2018 Mar;25(3):270-278. doi: 10.1038/s41594-018-0033-9. Epub 2018 Feb 26.
Ref 5 Modelling Alzheimer's disease in a dish: dissecting amyloid- metabolism in human neurons. Neuronal Signal. 2024 Jan 11;8(1):NS20230020. doi: 10.1042/NS20230020. eCollection 2024 Jan.
Ref 6 A commentary on the paper, 'Development and validation of a novel automatable assay for cholesterol efflux capacity'. Biosci Rep. 2023 Jun 28;43(6):BSR20230124. doi: 10.1042/BSR20230124.
Ref 7 Retracted: Chen, Y, Zhang, W, Kadier, A, Zhang, H, Yao, X. MicroRNA-769-5p suppresses cell growth and migration via targeting NUSAP1 in bladder cancer. J Clin Lab Anal. 2020; 34:e23193. J Clin Lab Anal. 2023 Apr;37(8):e24893. doi: 10.1002/jcla.24893. Epub 2023 May 14.
Ref 8 New mechanisms for the kidney-protective effect of alkali in chronic kidney disease. Clin Sci (Lond). 2022 Oct 28;136(20):1433-1437. doi: 10.1042/CS20220395.
Ref 9 ANGPTL1, Foxo3a-Sox2, and colorectal cancer metastasis. Clin Sci (Lond). 2022 Sep 30;136(18):1367-1370. doi: 10.1042/CS20220394.
Ref 10 Microglia-Mediated Neuroinflammation: A Potential Target for the Treatment of Cardiovascular Diseases. J Inflamm Res. 2022 May 25;15:3083-3094. doi: 10.2147/JIR.S350109. eCollection 2022.
Ref 11 Angiotensin receptors - affinitiy and beyond. Clin Sci (Lond). 2022 May 27;136(10):799-802. doi: 10.1042/CS20220024.
Ref 12 Utility of preclinical models of altered maternal nutrition to support the developmental origins of health and disease hypothesis. Clin Sci (Lond). 2022 May 27;136(10):711-714. doi: 10.1042/CS20211175.
Ref 13 SARS-CoV-2 spike protein causes cardiovascular disease independent of viral infection. Clin Sci (Lond). 2022 Mar 31;136(6):431-434. doi: 10.1042/CS20220028.
Ref 14 Microbiota transplantation in portal hypertension: promises and pitfalls. Clin Sci (Lond). 2022 Mar 31;136(6):425-429. doi: 10.1042/CS20220029.
Ref 15 Paradoxical effects of osteoprotegerin on vascular function: inhibiting inflammation while promoting oxidative stress?. Clin Sci (Lond). 2022 Mar 18;136(5):379-382. doi: 10.1042/CS20211096.
Ref 16 MicroRNAs as messengers of liver diseases: has the message finally been decrypted?. Clin Sci (Lond). 2022 Mar 18;136(5):323-328. doi: 10.1042/CS20211177.
Ref 17 Commentary on: Xbp1s-Ddit3, DNA damage and pulmonary hypertension. Clin Sci (Lond). 2022 Jan 14;136(1):163-166. doi: 10.1042/CS20211095.
Ref 18 A commentary on the paper: 'Evaluation of spice and herb as phytoderived selective modulators of human retinaldehyde dehydrogenases using a simple in vitro method'. Biosci Rep. 2022 Jan 28;42(1):BSR20211522. doi: 10.1042/BSR20211522.
Ref 19 Countering the classical renin-angiotensin system. Clin Sci (Lond). 2021 Dec 10;135(23):2619-2623. doi: 10.1042/CS20211043.
Ref 20 Commentary on: Screening of immunosuppressive cells from colorectal adenocarcinoma and identification of prognostic markers. Biosci Rep. 2021 Dec 22;41(12):BSR20211096. doi: 10.1042/BSR20211096.
Ref 21 Double agent indole-3-acetic acid: mechanistic analysis of indole-3-acetaldehyde dehydrogenase AldA that synthesizes IAA, an auxin that aids bacterial virulence. Biosci Rep. 2021 Aug 27;41(8):BSR20210598. doi: 10.1042/BSR20210598.
Ref 22 Targeting the 'garbage-bin' to fight cancer: HDAC6 inhibitor WT161 has an anti-tumor effect on osteosarcoma and synergistically interacts with 5-FU. Biosci Rep. 2021 Aug 27;41(8):BSR20210952. doi: 10.1042/BSR20210952.
Ref 23 Soluble (pro)renin receptor: a novel ligand for angiotensin II type 1 receptor?. Clin Sci (Lond). 2021 Jul 16;135(13):1627-1630. doi: 10.1042/CS20210227.
Ref 24 Promyelocytic leukemia protein: an atherosclerosis suppressor protein?. Clin Sci (Lond). 2021 Jul 16;135(13):1557-1561. doi: 10.1042/CS20210314.
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