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Journal articles on the topic 'Carpet viper venom genetics'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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1

Smith, J. Bryan, R. David G. Theakston, Ana Lucia J. Coelho, Christina Barja-Fidalgo, Juan J. Calvete, and Cezary Marcinkiewicz. "Characterization of a monomeric disintegrin, ocellatusin, present in the venom of the Nigerian carpet viper,Echis ocellatus1." FEBS Letters 512, no. 1-3 (2002): 111–15. http://dx.doi.org/10.1016/s0014-5793(02)02233-0.

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2

Paine, M. J. I., H. P. Desmond, R. D. G. Theakston, and J. M. Crampton. "Gene expression in Echis carinatus (carpet viper) venom glands following milking." Toxicon 30, no. 4 (1992): 379–86. http://dx.doi.org/10.1016/0041-0101(92)90534-c.

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3

Taylor, D., D. Iddon, P. Sells, S. Semoff, and R. D. G. Theakston. "An investigation on venom secretion by the venom gland cells of the carpet viper (Echis carinatus)." Toxicon 24, no. 7 (1986): 651–59. http://dx.doi.org/10.1016/0041-0101(86)90028-0.

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4

Wagstaff, Simon C., Libia Sanz, Paula Juárez, Robert A. Harrison, and Juan J. Calvete. "Combined snake venomics and venom gland transcriptomic analysis of the ocellated carpet viper, Echis ocellatus." Journal of Proteomics 71, no. 6 (2009): 609–23. http://dx.doi.org/10.1016/j.jprot.2008.10.003.

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5

McLane, M. A., C. Marcinkiewicz, S. Vijay-Kumar, I. Wierzbicka-Patynowski, and S. Niewiarowski. "Viper Venom Disintegrins and Related Molecules." Experimental Biology and Medicine 219, no. 2 (1998): 109–19. http://dx.doi.org/10.3181/00379727-219-44322.

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6

Hasson, S. S., R. A. Mothana, T. A. Sallam, M. S. Al-balushi, M. T. Rahman, and A. A. Al-Jabri. "Serine Protease Variants Encoded byEchis ocellatusVenom Gland cDNA: Cloning and Sequencing Analysis." Journal of Biomedicine and Biotechnology 2010 (2010): 1–12. http://dx.doi.org/10.1155/2010/134232.

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Envenoming byEchissaw-scaled viper is the leading cause of death and morbidity in Africa due to snake bite. Despite its medical importance, there have been few investigations into the toxin composition of the venom of this viper. Here, we report the cloning of cDNA sequences encoding four groups or isoforms of the haemostasis-disruptive Serine protease proteins (SPs) from the venom glands ofEchis ocellatus. All these SP sequences encoded the cysteine residues scaffold that form the 6-disulphide bonds responsible for the characteristic tertiary structure of venom serine proteases. All theEchis
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7

Khalid, Huda, Maowia Mohammed Mukhtar, and Nicki Konstantakopoulos. "Cytotoxiciy of Naja nubiae (Serpentes: Elapidae) and Echis ocellatus (Serpentes: Viperidae) Venoms from Sudan." Journal of Toxins 2015 (March 15, 2015): 1–7. http://dx.doi.org/10.1155/2015/167492.

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In Sudan, as in many African countries, no local specific antivenom is manufactured resulting in snake bite victims being treated by antivenoms imported from abroad. In the present work we measured the cytotoxic effect of the recently described spitting cobra (Naja nubiae) and the carpet viper (Echis ocellatus) snake venoms using a cell based assay. We also investigated the efficacy of four antivenoms CSL (Australia), SAIMR (South Africa), snake venom antiserum (India), and EchiTAb-Plus-ICP (Cost Rica) to neutralize the cytotoxic effect of the two venoms. The venoms resulted in a remarkable in
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8

Okoro, Peculiar Nwanyibunwa, Sani Ibrahim, Hajiya Mairo Inuwa, and Stanley Irobekhian Reuben Okoduwa. "Evaluation of Mango Seed Kernel Methanolic Extract on Metalloproteases in Carpet Viper (Echisocellatus) Venom: An in Vitro Experiment." Iranian Jornal of Toxicology 11, no. 5 (2017): 23–30. http://dx.doi.org/10.29252/arakmu.11.5.23.

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9

Iddon, D., M. Hommel, and R. D. G. Theakston. "Characterisation of a monoclonal antibody capable of neutralising the haemorrhagic activity of West African Echis carinatus (carpet viper) venom." Toxicon 26, no. 2 (1988): 167–79. http://dx.doi.org/10.1016/0041-0101(88)90169-9.

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10

Howes, J. M., M. C. Wilkinson, R. D. G. Theakston, and G. D. Laing. "The purification and partial characterisation of two novel metalloproteinases from the venom of the West African carpet viper, Echis ocellatus." Toxicon 42, no. 1 (2003): 21–27. http://dx.doi.org/10.1016/s0041-0101(03)00096-5.

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11

Laing, Gavin D., and R. David G. Theakston. "Immunization against Echis ocellatus (carpet viper) venom using liposomes incorporating immunostimulants: role of lipopolysaccharide in conferring protection in a mouse model." Toxicon 31, no. 5 (1993): 615–26. http://dx.doi.org/10.1016/0041-0101(93)90116-z.

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12

Strachan, Norval J. C., and Iain D. Ogden. "A sensitive microsphere coagulation ELISA forEscherichia coliO157:H7 using Russell's viper venom." FEMS Microbiology Letters 186, no. 1 (2000): 79–84. http://dx.doi.org/10.1111/j.1574-6968.2000.tb09085.x.

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13

Valverde, Juan Manuel, Karina Rodríguez, María Herrera, et al. "Comparison of the adjuvant activity of emulsions with different physicochemical properties on the antibody response towards the venom of West African carpet viper (Echis ocellatus)." Toxicon 127 (March 2017): 106–11. http://dx.doi.org/10.1016/j.toxicon.2017.01.011.

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14

Siddiqi, Abdur Rehman, Zafar H. Zaidi, and Hans Jörnvall. "Purification and characterization of a Kunitz-type trypsin inhibitor from Leaf-nosed viper venom." FEBS Letters 294, no. 1-2 (1991): 141–43. http://dx.doi.org/10.1016/0014-5793(91)81361-b.

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15

Francischetti, Ivo M. B., Van My-Pham, Jim Harrison, Mark K. Garfield, and José M. C. Ribeiro. "Bitis gabonica (Gaboon viper) snake venom gland: toward a catalog for the full-length transcripts (cDNA) and proteins." Gene 337 (August 2004): 55–69. http://dx.doi.org/10.1016/j.gene.2004.03.024.

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16

Sánchez, Laura V., Davinia Pla, María Herrera, Jean Philippe Chippaux, Juan J. Calvete, and José María Gutiérrez. "Evaluation of the preclinical efficacy of four antivenoms, distributed in sub-Saharan Africa, to neutralize the venom of the carpet viper, Echis ocellatus, from Mali, Cameroon, and Nigeria." Toxicon 106 (November 2015): 97–107. http://dx.doi.org/10.1016/j.toxicon.2015.09.027.

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17

Borkow, G., D. Marco, and M. Ovadia. "Isolation and Partial Characterization of an Antiviral Proteolytic Fraction from the Venom of Echis Carinatus Sochureki." Open Biology Journal 1, no. 1 (2008): 21–26. http://dx.doi.org/10.2174/1874196700801010021.

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The venom of the viper Echis carinatus sochureki suppresses the hemolytic activity of Sendai virus on human erythrocytes, when pre-incubated with the virions prior to their binding to cells. A fraction (C1), with an IC50 of 1.25 􀀁g/ml, was isolated from the venom. Fraction C1 possesses strong azocollase, azocaseinase and gelatinase activity. The proteolytic and anti-hemolytic potency of C1 depends on the period and temperature of incubation. Its antiviral activity is inhibited by Sodium-EDTA but not by PMSF. SDS PAGE of Sendai virus incubated with fraction C1 shows disappearance of several of
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18

Harrison, R. A., J. Oliver, S. S. Hasson, K. Bharati, and R. D. G. Theakston. "Novel sequences encoding venom C-type lectins are conserved in phylogenetically and geographically distinct Echis and Bitis viper species." Gene 315 (October 2003): 95–102. http://dx.doi.org/10.1016/s0378-1119(03)00716-9.

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19

Gattullo, D., S. Hyslop, N. A. Marsh, P. Pagliaro, and P. Vono. "Acid-base, plasma lactate and glucose changes in the rabbit following administration of Gaboon viper () venom." Life Sciences 45, no. 20 (1989): 1893–901. http://dx.doi.org/10.1016/0024-3205(89)90543-2.

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20

Wang, Runhua, Chunguang Kong, Prasanna Kolatkar, and Maxey C. M. Chung. "A novel dimer of a C-type lectin-like heterodimer from the venom ofCalloselasma rhodostoma(Malayan pit viper)." FEBS Letters 508, no. 3 (2001): 447–53. http://dx.doi.org/10.1016/s0014-5793(01)03071-x.

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21

Nakayama, Daisuke, Youssef Ben Ammar, and Soichi Takeda. "Crystallization and preliminary X-ray crystallographic analysis of blood coagulation factor V-activating proteinase (RVV-V) from Russell's viper venom." Acta Crystallographica Section F Structural Biology and Crystallization Communications 65, no. 12 (2009): 1306–8. http://dx.doi.org/10.1107/s1744309109046697.

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22

Alloatti, G., D. Gattullo, N. A. Marsh, P. Pagliaro, and P. Vono. "The mechanical and electrical effects of rhinoceros viper () venom on the isolated perfused guinea pig heart and atrial preparations." Life Sciences 49, no. 21 (1991): 1539–48. http://dx.doi.org/10.1016/0024-3205(91)90326-7.

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23

Suzuki, Mieko, Takeshi Itoh, B. M. Anuruddhe I. K. Bandaranayake, J. G. Shirani Ranasinghe, Seranath B. P. Athauda, and Akihiko Moriyama. "Molecular diversity in venom proteins of the Russell's viper (Daboia russellii russellii) and the Indian cobra (Naja naja) in Sri Lanka." Biomedical Research 31, no. 1 (2010): 71–81. http://dx.doi.org/10.2220/biomedres.31.71.

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24

Demir, S., J. Li, L. Magder, and M. A. Petri. "SAT0203 SINGLE LAC POSITIVITY VERSUS DOUBLE AND TRIPLE POSITIVITY FOR THROMBOSIS IN SLE." Annals of the Rheumatic Diseases 79, Suppl 1 (2020): 1044.1–1044. http://dx.doi.org/10.1136/annrheumdis-2020-eular.2762.

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Background:The antiphospholipid syndrome (APS) is defined by the development of venous and/or arterial thromboses, and pregnancy morbidity, in the presence of antiphospholipid antibodies (aPL); lupus anticoagulant, moderate-to-high titer anticardiolipin (aCL) and anti-β2-glycoprotein (aB2GPI). It has been suggested that the incidence of thromboembolic events were significantly higher in the triple positive subjects, and the rate of pregnancy loss was also significantly much higher in double positive subjects (1). On the other hand several studies showed that LAC is more highly associated with
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25

"Venom gene expression in the carpet viper following milking." Toxicon 30, no. 5-6 (1992): 543. http://dx.doi.org/10.1016/0041-0101(92)90751-p.

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26

Alkali, Nura H., Sulaiman T. Sa'ad, Abubakar Saidu, Jacob A. Dunga, Fadimatu K. Sa'ad, and Godiya Ishaya. "Acute transverse myelitis following carpet viper snakebite in Northeast Nigeria." Annals of African Medical Research 2, no. 2 (2020). http://dx.doi.org/10.4081/aamr.2019.70.

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Snakebite is a major cause of death and disability in developing countries. The common clinical features of snake envenomation include bleeding, acute kidney injury, dilated pupils and muscle paralysis resulting from the deleterious effects of venom toxins on human plasma proteins, cell membranes, muscle fibers and vascular endothelium. Snakes also harbour pathogenic organisms that may infect bite victims during envenomation, but few studies have described this phenomenon. We herein report a rare case of acute transverse myelitis occurring after snakebite in Northeast Nigeria, and discuss the
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27

Kakumanu, Rahini, Barbara K. Kemp-Harper, Anjana Silva, Sanjaya Kuruppu, Geoffrey K. Isbister, and Wayne C. Hodgson. "An in vivo examination of the differences between rapid cardiovascular collapse and prolonged hypotension induced by snake venom." Scientific Reports 9, no. 1 (2019). http://dx.doi.org/10.1038/s41598-019-56643-0.

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AbstractWe investigated the cardiovascular effects of venoms from seven medically important species of snakes: Australian Eastern Brown snake (Pseudonaja textilis), Sri Lankan Russell’s viper (Daboia russelii), Javanese Russell’s viper (D. siamensis), Gaboon viper (Bitis gabonica), Uracoan rattlesnake (Crotalus vegrandis), Carpet viper (Echis ocellatus) and Puff adder (Bitis arietans), and identified two distinct patterns of effects: i.e. rapid cardiovascular collapse and prolonged hypotension. P. textilis (5 µg/kg, i.v.) and E. ocellatus (50 µg/kg, i.v.) venoms induced rapid (i.e. within 2 mi
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28

"A monoclonal antibody active against the ‘haemorrhagin’ of nigerian Echis carinatus (carpet viper) venom." Toxicon 23, no. 4 (1985): 576. http://dx.doi.org/10.1016/0041-0101(85)90254-5.

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29

"Characterization of phospholipase A2 from the venom of Horned viper (Cerastes cerastes)." FEBS Letters 278, no. 1 (1991): 14–16. http://dx.doi.org/10.1016/0014-5793(91)80072-b.

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30

Albulescu, Laura-Oana, Chunfang Xie, Stuart Ainsworth, et al. "A therapeutic combination of two small molecule toxin inhibitors provides broad preclinical efficacy against viper snakebite." Nature Communications 11, no. 1 (2020). http://dx.doi.org/10.1038/s41467-020-19981-6.

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AbstractSnakebite is a medical emergency causing high mortality and morbidity in rural tropical communities that typically experience delayed access to unaffordable therapeutics. Viperid snakes are responsible for the majority of envenomings, but extensive interspecific variation in venom composition dictates that different antivenom treatments are used in different parts of the world, resulting in clinical and financial snakebite management challenges. Here, we show that a number of repurposed Phase 2-approved small molecules are capable of broadly neutralizing distinct viper venom bioactivit
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31

Brayne, Mark, Jake Kola, Debra Hoppensteadt, Omer Iqbal, and Jawed Fareed. "Dilute Russell's Viper Venom Clotting Time (DRVVT) is Useful for the Routine Monitoring of Newer Non‐Vitamin K Anticoagulants." FASEB Journal 29, S1 (2015). http://dx.doi.org/10.1096/fasebj.29.1_supplement.609.9.

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32

Atanacio, Ronald Comedia, Juliana Atanacio Escarlos, Jose Atanacio Escarlos, et al. "Carcinocytotoxic Activity of the Yellow‐Lipped Sea Krait (Laticauda colubrina), Wagler’s Pit Viper (Tropidolaemus sp.) and Philippine Cobra (Naja philippinensis ) Venom." FASEB Journal 21, no. 6 (2007). http://dx.doi.org/10.1096/fasebj.21.6.lb79-a.

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