This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Aguerre, S., Jacquiet, P., Brodier, H., Bournazel, J.P., Grisez, C., Prévot, F., Michot, L., Fidelle, F., Astruc, J.M., Moreno, C.R. (2018): Resistance to gastrointestinal nematodes in dairy sheep: Genetic variability and relevance of artificial infection of nucleus rams to select for resistant ewes on farms. Vet Parasitol, 256: 16–23. DOI: 10.1016/j.vetpar.2018.04.004AguerreS.JacquietP.BrodierH.BournazelJ.P.GrisezC.PrévotF.MichotL.FidelleF.AstrucJ.M.MorenoC.R.2018Resistance to gastrointestinal nematodes in dairy sheep: Genetic variability and relevance of artificial infection of nucleus rams to select for resistant ewes on farmsVet Parasitol256162310.1016/j.vetpar.2018.04.00429887024Open DOISearch in Google Scholar
Alunda, R.J.M., Cuquerella, A.M., Mohamed, F.E. (2014): Proteína recombinante de Haemonchus contortus y su aplicación para la producción de una vacuna frente a la hemoncosis [Recombinant protein of Haemonchus contortus and use thereof for the production of a vaccine against haemonchosis]. Oficina Española Depatentes y Marcas N° 201200865 (In Spanish)AlundaR.J.M.CuquerellaA.M.MohamedF.E.2014Proteína recombinante de Haemonchus contortus y su aplicación para la producción de una vacuna frente a la hemoncosis [Recombinant protein of Haemonchus contortus and use thereof for the production of a vaccine against haemonchosis]. Oficina Española Depatentes y Marcas N° 201200865(In Spanish)Search in Google Scholar
Arike, L., Peil, L. (2014): Spectral counting label-free proteomics. In: Martins-de-Souza, D. (Ed) Shotgun Proteomics. Methods in Molecular BiologyMethods and Protocols). Volume 1156. Humana Press, New York, NY, pp. 213–222. DOI:10.1007/978-1-4939-0685-7_14ArikeL.PeilL.2014Spectral counting label-free proteomicsMartins-de-SouzaD.(Ed)Shotgun Proteomics. Methods in Molecular Biology (Methods and Protocols). Volume 1156Humana PressNew York, NY21322210.1007/978-1-4939-0685-7_1424791991Open DOISearch in Google Scholar
Arsenopoulos, K.V., Fthenakis, G.C., Katsarou, E.I., Papadopoulos, E. (2021): Haemonchosis: A challenging parasitic infection of sheep and goats. Animals, 11(2): 363. DOI: 10.3390/ani11020363Bassetto, C.C., Almeida, F.A., Newlands, G.F.J., Smith, W.D., Castilhos, A.M., Fernandes, S., Siqueira, E.R., Amarante, A.F.T. (2018): Trials with the Haemonchus vaccine, Barbervax®, in ewes and lambs in a tropical environment: Nutrient supplementation improves protection in periparturient ewes. Vet Parasitol, 264: 52–57. DOI: 10.1016/j.vetpar.2018.11.006ArsenopoulosK.V.FthenakisG.C.KatsarouE.I.PapadopoulosE.2021Haemonchosis: A challenging parasitic infection of sheep and goatsAnimals11236310.3390/ani11020363BassettoC.C., Almeida, F.A., Newlands, G.F.J., Smith, W.D., Castilhos, A.M., Fernandes, S., Siqueira, E.R., Amarante, A.F.T. (2018): Trials with the Haemonchus vaccine, Barbervax®, in ewes and lambs in a tropical environment: Nutrient supplementation improves protection in periparturient ewes. Vet Parasitol 264 52-5710.1016/j.vetpar.2018.11.006Open DOISearch in Google Scholar
Bordoloi, G., Jas, R., Ghosh, J.D. (2012): Changes in the haema-to-biochemical pattern due to experimentally induced haemonchosis in Sahabadi sheep. J Parasit Dis, 36: 101–105. DOI: 10.1007/s12639-011-0079-7BordoloiG.JasR.GhoshJ.D.2012Changes in the haema-to-biochemical pattern due to experimentally induced haemonchosis in Sahabadi sheepJ Parasit Dis3610110510.1007/s12639-011-0079-7328461923542417Open DOISearch in Google Scholar
Corticelli, B., Lai, M. (1963): Studies on the technique of culture of infective larvae of gastrointestinal strongyles of cattle. Acta Med Vet (Napoli), 9: 347–357CorticelliB.LaiM.1963Studies on the technique of culture of infective larvae of gastrointestinal strongyles of cattleActa Med Vet (Napoli)9347357Search in Google Scholar
Cox, G.N., Pratt, D., Hageman, R., Boisvenue, R.J. (1990): Molecular cloning and primary sequence of a cysteine protease expressed by Haemonchus contortus adult worms Mol Biochem Parasitol, 41: 25–34. DOI: 10.1016/0166-6851(90)90093-2CoxG.N.PrattD.HagemanR.BoisvenueR.J.1990Molecular cloning and primary sequence of a cysteine protease expressed by Haemonchus contortusadult worms Mol Biochem Parasitol41253410.1016/0166-6851(90)90093-22385265Open DOISearch in Google Scholar
Cringoli, G., Rinaldi, L., Veneziano, V., Capelli, G., Scala, A. (2004): The influence of flotation solution, sample dilution and the choice of McMaster slide area (volume) on the reliability of the McMaster technique in estimating the faecal egg counts of gastrointestinal strongyles and Dicrocoelium dendriticum in sheep. Vet Parasitol, 123: 121–131. DOI: 10.1016/j.vetpar.2004.05.021CringoliG.RinaldiL.VenezianoV.CapelliG.ScalaA.2004The influence of flotation solution, sample dilution and the choice of McMaster slide area (volume) on the reliability of the McMaster technique in estimating the faecal egg counts of gastrointestinal strongyles and Dicrocoelium dendriticum in sheepVet Parasitol12312113110.1016/j.vetpar.2004.05.02115265576Open DOISearch in Google Scholar
Cruz-Tamayo, A., Garduño, R., Torres-Hernández, G., Becerril Pérez, C.M., Hernández-Mendo, O., Ramírez-Bribiesca, J.E., López-Arellano, M., Vargas-Magaña, J., Ojeda-Robertos, N. (2020): Comparison of two phenotypical methods to segregate resistant and susceptible lambs to parasitic nematodes Austral J Vet Sci, 52 (1): 9–18. DOI: 10.4067/S0719-81322020000100103Cruz-TamayoA.GarduñoR.Torres-HernándezG.Becerril PérezC.M.Hernández-MendoO.Ramírez-BribiescaJ.E.López-ArellanoM.Vargas-MagañaJ.Ojeda-RobertosN.2020Comparison of two phenotypical methods to segregate resistant and susceptible lambs to parasitic nematodesAustral J Vet Sci52191810.4067/S0719-81322020000100103Open DOISearch in Google Scholar
De Albuquerque, A.C.A., Bassetto, C.C., De Almeida, F.A. Amarante, A.F.T. (2017): Development of Haemonchus contortus resistance in sheep under suppressive or targeted selective treatment with monepantel. Vet Parasitol, 246: 112–117. DOI: 10.1016/j.vetpar.2017.09.010De AlbuquerqueA.C.A.BassettoC.C.DeAlmeidaAmaranteF.A.A.F.T2017Development of Haemonchus contortus resistance in sheep under suppressive or targeted selective treatment with monepantelVet Parasitol24611211710.1016/j.vetpar.2017.09.01028969773Open DOISearch in Google Scholar
Dufour, S., Mège, R.M., Thiery, J.P. (2013): α-catenin, vinculin, and F-actin in strengthening E-cadherin cell-cell adhesions and mechanosensing. Cell Adh Migr, 7 (4): 345–350. DOI: 10.4161/cam.25139DufourS.MègeR.M.ThieryJ.P.2013α-catenin, vinculin, and F-actin in strengthening E-cadherin cell-cell adhesions and mechanosensingCell Adh Migr7434535010.4161/cam.25139373981023739176Open DOISearch in Google Scholar
El-Mezgueldi, M. (1996): Calponin. Int J Biochem Cell Biol, 28: 1185–1189. DOI: 10.1016/S1357-2725(96)00085-4El-MezgueldiM.1996CalponinInt J Biochem Cell Biol281185118910.1016/S1357-2725(96)00085-49022277Open DOISearch in Google Scholar
Eng, J.K., McCormack, A.L., Yates, J.R. (1994): An approach to correlate tandem mass spectral data of peptides with amino acid sequences in a protein database. J Am Soc Mass Spectrom, 5: 976–989. DOI: 10.1016/1044-0305(94)80016-2EngJ.K.McCormackA.L.YatesJ.R.1994An approach to correlate tandem mass spectral data of peptides with amino acid sequences in a protein databaseJ Am Soc Mass Spectrom597698910.1016/1044-0305(94)80016-224226387Open DOISearch in Google Scholar
Estrada-Reyes, Z.M., Tsukahara, Y., Amadeu, R.R., Goetsch, A.L., Gipson, T.A., Sahlu, T., Puchala, R., Wang, Z., Hart, S.P., Mateescu, R.G. (2019): Signatures of selection for resistance to Haemonchus contortus in sheep and goats. BMC Genomics, 20: 735. DOI: 10.1186/s12864-019-6150-yEstrada-ReyesZ.M.TsukaharaY.AmadeuR.R.GoetschA.L.GipsonT.A.SahluT.PuchalaR.WangZ.HartS.P.MateescuR.G.2019Signatures of selection for resistance to Haemonchus contortus in sheep and goatsBMC Genomics2073510.1186/s12864-019-6150-y679219431615414Open DOISearch in Google Scholar
Gadahi, J.A., Wang, S., Bo, G., Ehsan, M., Yan, R., Song, X., Xu, L., Li, X. (2016): Proteomic analysis of the excretory and secretory proteins of Haemonchus contortus (HcESP) binding to goat PB-MCs in vivo revealed stage-specific binding profiles. PloS One, 11: e0159796 – e0159796. DOI: 10.1371/journal.pone.0159796GadahiJ.A.WangS.BoG.EhsanM.YanR.SongX.XuL.LiX.2016Proteomic analysis of the excretory and secretory proteins of Haemonchus contortus (HcESP) binding to goat PB-MCs in vivo revealed stage-specific binding profilesPloS One11e0159796e015979610.1371/journal.pone.0159796496504927467391Open DOISearch in Google Scholar
García-Coiradas, L., Angulo-Cubillán, F., Valladares, B., Martínez, E., De La Fuente, C., Alunda, J.M., Cuquerella, M. (2010): Immunization against lamb haemonchosis with a recombinant somatic antigen of Haemonchus contortus (rHcp26/23). Vet Med Int, Article ID 852146, 8 pages. DOI: 10.4061/2010/852146García-CoiradasL.Angulo-CubillánF.ValladaresB.MartínezE.De La FuenteC.AlundaJ.M.CuquerellaM.2010Immunization against lamb haemonchosis with a recombinant somatic antigen of Haemonchus contortus (rHcp26/23)Vet Med IntArticle ID 852146, 8 pages10.4061/2010/852146290203920631899Open DOISearch in Google Scholar
González-Sánchez, M. E, Cuquerella, M, Alunda, J.M. (2018): Vaccination of lambs against Haemonchus contortus with the recombinant rHc23. Effect of adjuvant and antigen dose. PLoS ONE, 13(3): e0193118. DOI: 10.1371/journal.pone.0193118González-SánchezM. E, Cuquerella, M, Alunda, J.M.2018Vaccination of lambs against Haemonchus contortus with the recombinant rHc23Effect of adjuvant and antigen dose. PLoS ONE133e019311810.1371/journal.pone.0193118584174929513692Open DOISearch in Google Scholar
González-Sánchez, M.E., Ndombasi-Bokuy, M., Cuquerella, M., Alunda, J.M. (2019): Immunization with recombinant rHc23 partially protects lambs against trickle infections by Haemonchus contortusBMC Vet Res, 15(1): 333. DOI: 10.1186/s12917-019-2084-5González-SánchezM.E.Ndombasi-BokuyM.CuquerellaM.AlundaJ.M.2019Immunization with recombinant rHc23 partially protects lambs against trickle infections by Haemonchus contortusBMC Vet Res15133310.1186/s12917-019-2084-5675181831533718Open DOISearch in Google Scholar
Guo, X., Zhang, H., Zheng, X., Zhou, Q., Yang, Y., Chen, X., Du, A. (2016): Structural and functional characterization of a novel gene, Hc-daf-22, from the strongylid nematode Haemonchus contortusParasit Vectors, 9: 422. DOI: 10.1186/s13071-016-1704-1GuoX.ZhangH.ZhengX.ZhouQ.YangY.ChenX.DuA.2016Structural and functional characterization of a novel gene, Hc-daf-22, from the strongylid nematode Haemonchus contortusParasit Vectors942210.1186/s13071-016-1704-1496656727472920Open DOISearch in Google Scholar
Harder, A. (2016): The Biochemistry of Haemonchus contortus and other parasitic nematodes. Adv Parasitol, 93: 69–94. DOI: 10.1016/bs.apar.2016.02.010HarderA.2016The Biochemistry of Haemonchus contortus and other parasitic nematodesAdv Parasitol93699410.1016/bs.apar.2016.02.01027238003Open DOISearch in Google Scholar
Javare, G.A.K. (2017): Immunodiagnosis of Haemonchus contortus infection in sheep by counter immuno-electrophoresis using somatic antigen. J Parasit Dis, 41(2): 352–355. DOI: 10.1007/s12639-016-0801-6JavareG.A.K.2017Immunodiagnosis of Haemonchus contortus infection in sheep by counter immuno-electrophoresis using somatic antigenJ Parasit Dis41235235510.1007/s12639-016-0801-6544757828615838Open DOISearch in Google Scholar
Karanu, F., McGuire, T., Davis, W.C., Beser, T., Jasmer, D. (1997): CD4+ T lymphocytes contribute to protective immunity induced in sheep and goats by Haemonchus contortus gut antigens. Parasite Immunol, 19: 435–445. DOI: 10.1046/j.1365-3024.1997.d01-149.xKaranuF.McGuireT.DavisW.C.BeserT.JasmerD.1997CD4+ T lymphocytes contribute to protective immunity induced in sheep and goats by Haemonchus contortus gut antigensParasite Immunol1943544510.1046/j.1365-3024.1997.d01-149.x9372511Open DOISearch in Google Scholar
Kebeta, M.M., Hine, B.C., Walkden-Brown, S.W., Kahn, L.P., Doyle, E.K. (2021): Protective efficacy of Barbervax® in Merino weaner sheep trickle infected with five doses of Haemonchus contortus infective larvae. Vet Parasitol, 292: 109386. DOI: 10.1016/j.vet-par.2021.109386KebetaM.M.HineB.C.Walkden-BrownS.W.KahnL.P.DoyleE.K.2021Protective efficacy of Barbervax® in Merino weaner sheep trickle infected with five doses of Haemonchus contortus infective larvaeVet Parasitol29210938610.1016/j.vet-par.2021.109386Open DOISearch in Google Scholar
Kotze, A. (2003): Catalase induction protects Haemonchus contortus against hydrogen peroxide in vitroInt J Parasitol, 33: 393–400. DOI: 10.1016/s0020-7519(03)00012-2KotzeA.2003Catalase induction protects Haemonchus contortus against hydrogen peroxide in vitroInt J Parasitol3339340010.1016/s0020-7519(03)00012-212705932Open DOISearch in Google Scholar
Kotze, A.C., Mcclure, S.J. (2001): Haemonchus contortus utilises catalase in defence against exogenous hydrogen peroxide in vitroInt J Parasitol, 31: 1563–1571. DOI: 10.1016/S0020-7519(01)00303-4KotzeA.C.McclureS.J.2001Haemonchus contortus utilises catalase in defence against exogenous hydrogen peroxide in vitroInt J Parasitol311563157110.1016/S0020-7519(01)00303-4Open DOISearch in Google Scholar
Laing, R., Kikuchi, T., Martinelli, A., Tsai, I.J., Beech, R.N., Redman, E., Holroyd, N., Bartley, D.J., Beasley, H., Britton, C., Curran, D., Devaney, E., Gilabert, A., Hunt, M., Jackson, F., Johnston, S.L., Kryukov, I., Li, K., Morrison, A.A., Reid, A.J., Sargison, N., Saunders, G.I., Wasmuth, J.D., Wolstenholme, A., Berriman, M., Gilleard, J.S., Cotton, J.A. (2013): The genome and transcriptome of Haemonchus contortus, a key model parasite for drug and vaccine discovery. Genome Biol, 14: R88. DOI: 10.1186/gb-2013-14-8-r88Lang, T., Lee, J.P.W., Elgas, K., Pinar, A.A., Tate, M.D., Aitken, E.H., Fan, H., Creed, S.J., Deen, N.S., Traore, D.A.K., Mueller, I., Stanisic, D., Baiwog, F.S., Skene, C., Wilce, M.C.J., Mansell, A., Morand, E.F., Harris, J. (2018): Macrophage migration inhibitory factor is required for NLRP3 inflammasome activation. Nat Commun, 9: 2223. DOI: 10.1038/s41467-018-04581-2LaingR.KikuchiT.MartinelliA.TsaiI.J.BeechR.N.RedmanE.HolroydN.BartleyD.J.BeasleyH.BrittonC.CurranD.DevaneyE.GilabertA.HuntM.JacksonF.JohnstonS.L.KryukovI.LiK.MorrisonA.A.ReidA.J.SargisonN.SaundersG.I.WasmuthJ.D.WolstenholmeA.BerrimanM.GilleardJ.S.CottonJ.A.2013The genome and transcriptome of Haemonchus contortus, a key model parasite for drug and vaccine discoveryGenome Biol14R8810.1186/gb-2013-14-8-r88LangT., Lee, J.P.W., Elgas, K., Pinar, A.A., Tate, M.D., Aitken, E.H., Fan, H., Creed, S.J., Deen, N.S., Traore, D.A.K., Mueller, I., Stanisic, D., Baiwog, F.S., Skene, C., Wilce, M.C.J., Mansell, A., Morand, E.F., Harris, J. (2018): Macrophage migration inhibitory factor is required for NLRP3 inflammasome activation. Nat Commun 9 222310.1038/s41467-018-04581-2Open DOISearch in Google Scholar
Lu, M., Tian, X., Yang, Z., Wang, W., Tian, A.-L., Li, C., Yan, R., Xu, L., Song, X., Li, X. (2020): Proteomic analysis revealed T cell hyporesponsiveness induced by Haemonchus contortus excretory and secretory proteins. Vet Res, 51: 65. DOI: 10.1186/s13567-020-00790-0LuM.TianX.YangZ.WangW.TianA.-L.LiC.YanR.XuL.SongX.LiX.2020Proteomic analysis revealed T cell hyporesponsiveness induced by Haemonchus contortus excretory and secretory proteinsVet Res516510.1186/s13567-020-00790-0722244132404195Open DOISearch in Google Scholar
Naqvi, M.A., Aimulajiang, K., Memon, M.A., Hasan, M.W., Naqvi, S. Z., Lakho, S. A., Chu, W., Xu, L., Song, X., Li, X., And Yan, R. (2020b). Recombinant cold shock domain containing protein is a potential antigen to detect specific antibody during early and late infections of Haemonchus contortus in goat. BMC Vet Res, 16(1): 36. DOI: 10.1186/s12917-020-2261-6NaqviM.A.AimulajiangK.MemonM.A.HasanM.W.NaqviS. Z.LakhoS. A.ChuW.XuL.SongX.LiX.YanR.2020bRecombinant cold shock domain containing protein is a potential antigen to detect specific antibody during early and late infections of Haemonchus contortus in goat. BMC Vet Res1613610.1186/s12917-020-2261-6699830532013987Open DOISearch in Google Scholar
Naqvi, M.A., Memon, M.A., Jamil, T., Naqvi, S.Z., Aimulajiang, K., Gadahi, J.A., Xu, L., Song, X., Li, X., Yan, R. (2020): Galectin domain containing protein from Haemonchus contortus modulates the immune functions of goat PBMCs and regulates CD4+ T-Helper cells in vitroBiomolecules., 10: 116. DOI: 10.3390/biom10010116NaqviM.A.MemonM.A.JamilT.NaqviS.Z.AimulajiangK.GadahiJ.A.XuL.SongX.LiX.YanR.2020Galectin domain containing protein from Haemonchus contortus modulates the immune functions of goat PBMCs and regulates CD4+ T-Helper cells in vitroBiomolecules1011610.3390/biom10010116702289431936604Open DOISearch in Google Scholar
Nisbet, A.J., Meeusen, E.N., González, J.F., Piedrafita, D.M. (2016): Chapter Eight - Immunity to Haemonchus contortus and vaccine development. In: Gaser, R.B., von Samson-Himelstjerna, G. (Eds) Haemonchus contortus and Haemonchosis – Past, Present and Future Trends, (Academic Press). Adv Parasitol, 93: 353–396. DOI: 10.1016/bs.apar.2016.02.011NisbetA.J.MeeusenE.N.GonzálezJ.F.PiedrafitaD.M.2016Chapter Eight - Immunity to Haemonchus contortus and vaccine developmentIn: Gaser, R.B., von Samson-Himelstjerna, G. (Eds) Haemonchus contortus and Haemonchosis – Past, Present and Future Trends, (Academic Press). Adv Parasitol9335339610.1016/bs.apar.2016.02.01127238008Open DOISearch in Google Scholar
Niu, L., Zhang, H., Wu, Z., Wang, Y., Liu, H., Wu, X., Wang, W. (2018): Modified TCA/acetone precipitation of plant proteins for proteomic analysis. PLoS One, 13: e0202238 – e0202238. DOI: 10.1371/journal.pone.0202238NiuL.ZhangH.WuZ.WangY.LiuH.WuX.WangW.2018Modified TCA/acetone precipitation of plant proteins for proteomic analysisPLoS One13e0202238e020223810.1371/journal.pone.0202238629654430557402Open DOISearch in Google Scholar
Palomo-Couoh, J.G., Aguilar-Caballero, A.J., Torres-Acosta, J.F.J., González-Garduño, R. (2017): Comparing the phenotypic susceptibility of Pelibuey and Katahdin female lambs against natural gastrointestinal nematode infections under hot humid tropical conditions. Parasitol Res, 116: 1627–1636. DOI: 10.1007/s00436-017-5437-7Palomo-CouohJ.G.Aguilar-CaballeroA.J.Torres-AcostaJ.F.J.González-GarduñoR.2017Comparing the phenotypic susceptibility of Pelibuey and Katahdin female lambs against natural gastrointestinal nematode infections under hot humid tropical conditionsParasitol Res1161627163610.1007/s00436-017-5437-728365814Open DOISearch in Google Scholar
Palomo-Couoh, J.G., Aguilar-Caballero, A.J., Torres-Acosta, J.F.J. Magaña-Monforte, J.G. (2016): Evaluation of different models to segregate Pelibuey and Katahdin ewes into resistant or susceptible to gastrointestinal nematodes. Trop Anim Health Prod, 48: 1517–1524. DOI: 10.1007/s11250-016-1122-6Palomo-CouohJ.G.Aguilar-CaballeroA.J.Torres-AcostaJ.F.J. Magaña-Monforte, J.G.2016Evaluation of different models to segregate Pelibuey and Katahdin ewes into resistant or susceptible to gastrointestinal nematodesTrop Anim Health Prod481517152410.1007/s11250-016-1122-627525647Open DOISearch in Google Scholar
Pandey, V.S., Sivaraj, S. (1994): Anthelmintic resistance in Haemonchus contortus from sheep in Malaysia. Vet Parasitol, 53 (1-2): 67–74. DOI: 10.1016/0304-4017(94)90018-3PandeyV.S.SivarajS.1994Anthelmintic resistance in Haemonchus contortus from sheep in MalaysiaVet Parasitol531-2677410.1016/0304-4017(94)90018-38091619Open DOISearch in Google Scholar
Peterson, G.L. (1977): A simplification of the protein assay method of Lowry et al. which is more generally applicable. Anal Biochem, 83: 346–356. DOI: 10.1016/0003-2697(77)90043-4PetersonG.L.1977A simplification of the protein assay method of Lowry et al. which is more generally applicableAnal Biochem8334635610.1016/0003-2697(77)90043-4603028Open DOISearch in Google Scholar
Rohrbough, J.G., Breci, L., Merchant, N., Miller, S., Haynes, P.A. (2006): Verification of single-peptide protein identifications by the application of complementary database search algorithms. J Bio-mol Tech, 17: 327–332RohrboughJ.G.BreciL.MerchantN.MillerS.HaynesP.A.2006Verification of single-peptide protein identifications by the application of complementary database search algorithmsJ Bio-mol Tech1732733210.21236/ADA439637Search in Google Scholar
Sakthivel, D., Swan, J., Preston, S., Shakif-Azam, M.D., Faou, P., Jiao, Y., Downs, R., Rajapa ksha, H., Gasser, R., Piedrafita., Beddoe, T. (2018): Proteomic identification of galectin-11 and 14 ligands from Haemonchus contortusPeerJ, 6: e4510 – e4510. DOI: 10.7717/peerj.4510SakthivelD.SwanJ.PrestonS.Shakif-AzamM.D.FaouP.JiaoY.DownsR.Rajapa kshaH.GasserR.Piedrafita.BeddoeT.2018Proteomic identification of galectin-11 and 14 ligands from Haemonchus contortusPeerJ6e4510e451010.7717/peerj.4510586370829576976Open DOISearch in Google Scholar
Scarff, C.A., Thompson, R.F., Newlands, G.F.J., Jamson, A.H., Kennaway, C., Da Silva, V.J., Rabelo, E.M., Song, C.-F., Trinick, J., Smith, W.D., Muench, S.P. (2020): Structure of the protective nematode protease complex H-gal-GP and its conservation across roundworm parasites. PLoS Pathog, 16: e1008465 – e1008465. DOI: 10.1371/journal.ppat.1008465ScarffC.A.ThompsonR.F.NewlandsG.F.J.JamsonA.H.KennawayC.Da SilvaV.J.RabeloE.M.SongC.-F.TrinickJ.SmithW.D.MuenchS.P.2020Structure of the protective nematode protease complex H-gal-GP and its conservation across roundworm parasitesPLoS Pathog16e1008465e100846510.1371/journal.ppat.1008465717394132271834Open DOISearch in Google Scholar
Tian, X., Lu, M., Jia, C., Bu, Y., Aimulajiang, K., Zhang, Y., Li, C., Yan, R., Xu, L., Song, X., Li, X. (2020): Haemonchus contortus transthyretin domain-containing protein (HcTTR): A promising vaccine candidate against Haemonchus contortus infection Vet Parasitol, 279: 109045. DOI: 10.1016/j.vetpar.2020.109045TianX.LuM.JiaC.BuY.AimulajiangK.ZhangY.LiC.YanR.XuL.SongX.LiX.2020Haemonchus contortus transthyretin domain-containing protein (HcTTR): A promising vaccine candidate against Haemonchus contortusinfection Vet Parasitol27910904510.1016/j.vetpar.2020.10904532045836Open DOISearch in Google Scholar
Van Wyk, J.A., Mayhew, E. (2013): Morphological identification of parasitic nematode infective larvae of small ruminants and cattle: A practical lab guide. Onderstepoort J Vet Res, 8: 1–14. DOI: 10.4102/ojvr.v80i1.539VanWykJ.A.MayhewE.2013Morphological identification of parasitic nematode infective larvae of small ruminants and cattle: A practical lab guideOnderstepoort J Vet Res811410.4102/ojvr.v80i1.53923718204Open DOISearch in Google Scholar
Wang, Q., Michalak, M. (2020): Calsequestrin. Structure, function, and evolution. Cell Calcium, 90: 102242. DOI: 10.1016/j.ceca.2020.102242WangQ.MichalakM.2020CalsequestrinStructure, function, and evolution. Cell Calcium9010224210.1016/j.ceca.2020.10224232574906Open DOISearch in Google Scholar
Wang, T., Ma, G., Ang, C.-S., Korhonen, P.K., Koehler, A. V, Young, N.D., Nie, S., Williamson, N.A., Gasser, R.B. (2019a): High throughput LC-MS/MS-based proteomic analysis of excretory-secretory products from short-term in vitro culture of Haemonchus contortus. J Proteomics, 204: 103375. DOI: 10.1016/j.jprot.2019.05.003WangT.MaG.AngC.-S.KorhonenP.K.KoehlerA. V, Young, N.D.NieS.WilliamsonN.A.GasserR.B.2019aHigh throughput LC-MS/MS-based proteomic analysis of excretory-secretory products from short-term in vitro culture of Haemonchus contortusJ Proteomics20410337510.1016/j.jprot.2019.05.00331071474Open DOISearch in Google Scholar
Wang, T., Ma, G., Ang, C.-S., Korhonen, P.K., Xu, R., Nie, S., Koehler, A. V., Simpson, R.J., Greening, D.W., Reid, G.E., Williamson, N.A., Gasser, R.B. (2019b). Somatic proteome of Haemonchus contortusInt J Parasitol, 49: 311–320. DOI: 10.1016/j.ijpa-ra.2018.12.003WangT.MaG.AngC.-S.KorhonenP.K.XuR.NieS.KoehlerA. V.SimpsonR.J.GreeningD.W.ReidG.E.WilliamsonN.A.GasserR.B.2019bSomatic proteome of Haemonchus contortusInt J Parasitol4931132010.1016/j.ijpa-ra.2018.12.003Open DOISearch in Google Scholar
Wang, T., Nie, S., Ma, G., Korhonen, P.K., Koehler, A. V, Ang, C.-S., Reid, G.E., Williamson, N.A., Gasser, R.B. (2018): The developmental lipidome of Haemonchus contortus. Int J Parasitol, 48: 887–895. DOI: 10.1016/j.ijpara.2018.06.002WangT.NieS.MaG.KorhonenP.K.KoehlerA. V, Ang, C.-S.ReidG.E.WilliamsonN.A.GasserR.B.2018The developmental lipidome of Haemonchus contortusInt J Parasitol4888789510.1016/j.ijpara.2018.06.00230176232Open DOISearch in Google Scholar
Xie, K., Zhang, P., Na, H., Liu, Y., Zhang, H., Liu, P. (2019). MDT-28/PLIN-1 mediates lipid droplet-microtubule interaction via DLC-1 in Caenorhabditis elegansSci Rep, 9: 14902. DOI: 10.1038/s41598-019-51399-zXieK.ZhangP.NaH.LiuY.ZhangH.LiuP.2019MDT-28/PLIN-1 mediates lipid droplet-microtubule interaction via DLC-1 in Caenorhabditis elegansSci Rep91490210.1038/s41598-019-51399-z679780131624276Open DOISearch in Google Scholar
Yang, Y., Zhang, G., Wu, J., Chen, X., Tong, D., Yang, Y., Shi, H., Yao, C., Zhuang, L., Wang, J., Du, A. (2020): Recombinant HcGAP-DH protein expressed on probiotic Bacillus subtilis spores protects sheep from Haemonchus contortus infection by inducing both humoral and cellmediated responses. mSystems, 5(3): e00239-20. DOI: 10.1128/mSystems.00239-20YangY.ZhangG.WuJ.ChenX.TongD.YangY.ShiH.YaoC.ZhuangL.WangJ.DuA.2020Recombinant HcGAP-DH protein expressed on probiotic Bacillus subtilis spores protects sheep from Haemonchus contortus infection by inducing both humoral and cellmediated responsesmSystems53e002392010.1128/mSystems.00239-20721955232398277Open DOISearch in Google Scholar
Yanming, S., Ruofeng, Y., Muleke, C.I., Guangwei, Z., Lixin, X., Xiangrui, L. (2007): Vaccination of goats with recombinant galectin antigen induces partial protection against Haemonchus contortus infection. Parasite Immunol, 29: 319–326. DOI: 10.1111/j.1365-3024.2007.00949.xYanmingS.RuofengY.MulekeC.I.GuangweiZ.LixinX.XiangruiL.2007Vaccination of goats with recombinant galectin antigen induces partial protection against Haemonchus contortus infectionParasite Immunol2931932610.1111/j.1365-3024.2007.00949.x17518950Open DOISearch in Google Scholar
Yan, R., Wang, J., Xu, L., Song, X., Li, X. (2014): DNA vaccine encoding Haemonchus contortus actin induces partial protection in goats. Acta Parasitol, 59 (4): 698–709. DOI: 10.2478/s11686-014-0298-zYanR.WangJ.XuL.SongX.LiX.2014DNA vaccine encoding Haemonchus contortus actin induces partial protection in goatsActa Parasitol59469870910.2478/s11686-014-0298-z25236283Open DOISearch in Google Scholar
Yatsuda, A., Krijgsveld, J., Cornelissen, A., Heck, A., De Vries, E. (2003): Comprehensive analysis of the secreted proteins of the parasite Haemonchus contortus reveals extensive sequence variation and differential immune recognition. J Biol Chem, 278: 16941–16951. DOI: 10.1074/jbc.M212453200YatsudaA.KrijgsveldJ.CornelissenA.HeckA.De VriesE.2003Comprehensive analysis of the secreted proteins of the parasite Haemonchus contortus reveals extensive sequence variation and differential immune recognitionJ Biol Chem278169411695110.1074/jbc.M21245320012576473Open DOISearch in Google Scholar
Yi, D., Xu, L., Yan, R., Li, X. (2010): Haemonchus contortus: Cloning and characterization of serpin. Exp Parasitol, 125: 363–370. DOI: 10.1016/j.exppara.2010.03.002YiD.XuL.YanR.LiX.2010Haemonchus contortus: Cloning and characterization of serpinExp Parasitol12536337010.1016/j.exppara.2010.03.00220214897Open DOISearch in Google Scholar
Zaragoza-Vera, C.V., Aguilar-Caballero, A.J., González-Garduño, R., Arjona-Jiménez, G., Zaragoza-Vera, M., Torres-Acosta, J.F.J., Medina-Reynés, J.U., Berumen-Alatorre, A.C. (2019): Variation in phenotypic resistance to gastrointestinal nematodes in hair sheep in the humid tropics of Mexico. Parasitol Res, 118: 567–573. DOI:10.1007/s00436-018-06201-wZaragoza-VeraC.V.Aguilar-CaballeroA.J.González-GarduñoR.Arjona-JiménezG.Zaragoza-VeraM.Torres-AcostaJ.F.J.Medina-ReynésJ.U.Berumen-AlatorreA.C.2019Variation in phenotypic resistance to gastrointestinal nematodes in hair sheep in the humid tropics of MexicoParasitol Res11856757310.1007/s00436-018-06201-w30627809Open DOISearch in Google Scholar
Supplementary Table S1. The full list of somatic proteins found in L3 and adults of Haemonchus contortus is available online at https://doi.org/10.2478/helm-2022-0017Supplementary Table S1. The full list of somatic proteins found in L3 and adults of Haemonchus contortusis available online athttps://doi.org/10.2478/helm-2022-001710.2478/helm-2022-0017944420936118367Search in Google Scholar