Improvement of long segment ribosomal PCR amplification for molecular identification of Litylenchus crenatae mccannii associated with beech leaf disease
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Arezi, B., Xing, W., Sorge, J. A. and Hogrefe, H. H. 2003. Amplification efficiency of thermostable DNA polymerases. Analytical Biochemistry 321: 226–235.AreziB.XingW.SorgeJ. A. and HogrefeH. H.2003. Amplification efficiency of thermostable DNA polymerases. 321: 226–235.10.1016/S0003-2697(03)00465-2Search in Google Scholar
Barnes, W. M. 1994. PCR amplification of up to 35-kb DNA with high fidelity and high yield from lambda bacteriophage templates. Proceedings of the National Academy of Sciences 91: 2216–2220.BarnesW. M.1994. PCR amplification of up to 35-kb DNA with high fidelity and high yield from lambda bacteriophage templates. 91: 2216–2220.10.1073/pnas.91.6.2216433418134376Search in Google Scholar
Carta, L. K., Handoo, Z. A., Li, S., Kantor, M., Bauchan, G., McCann, D., Gabriel, C. K., Yu, Q., Reed, S., Koch, J., Martin, D. and Burke, D. J. 2020. Morphological and molecular characterization of Litylenchus crenatae Kanzaki, et al., 2019 mccannii ssp. n. (Tylenchida: Anguinata) from beech trees Fagus grandifolia (Fagaceae) in North America with first report of Beech Leaf Disease (BLD) symptoms after nematode inoculation. Forest Pathology.CartaL. K.HandooZ. A.LiS.KantorM.BauchanG.McCannD.GabrielC. K.YuQ.ReedS.KochJ.MartinD. and BurkeD. J.2020. . Forest Pathology.Search in Google Scholar
Carta, L. K. and Li, S. 2019. PCR amplification of a long rDNA segment with one primer pair in agriculturally important nematodes. Journal of Nematology 51 doi: 10.21307/jofnem-2019-026.CartaL. K. and LiS.2019. PCR amplification of a long rDNA segment with one primer pair in agriculturally important nematodes. 51 doi: 10.21307/jofnem-2019-026.692965031157959Open DOISearch in Google Scholar
Carta, L. K. and Li, S. 2018. Improved 18S small subunit rDNA primers for problematic nematode amplification. Journal of Nematology 50: 533–542.CartaL. K. and LiS.2018. Improved 18S small subunit rDNA primers for problematic nematode amplification. 50: 533–542.10.21307/jofnem-2018-051690929231094155Search in Google Scholar
Cheng, S., Chen, Y., Monforte, J. A., Higuchi, R. and Van Houten, B. 1995. Template integrity is essential for PCR amplification of 20- to 30-kb sequences from genomic DNA. Genome Research 1995 4: 294–298.ChengS.ChenY.MonforteJ. A.HiguchiR. and Van HoutenB.1995. Template integrity is essential for PCR amplification of 20- to 30-kb sequences from genomic DNA. 4: 294–298.10.1101/gr.4.5.2947580917Search in Google Scholar
Davies, K. G. and Curtis, R. H. 2011. Cuticle surface coat of plant-parasitic nematodes. Annual Review of Phytopathology 49: 135–56.DaviesK. G. and CurtisR. H.2011. Cuticle surface coat of plant-parasitic nematodes. 49: 135–56.10.1146/annurev-phyto-121310-11140621568702Search in Google Scholar
Erlich, H. A., Gelfand, D. and Sninsky, J. J. 1991. Recent advances in the polymerase chain reaction. Science 252: 1643–1651.ErlichH. A.GelfandD. and SninskyJ. J.1991. Recent advances in the polymerase chain reaction. 252: 1643–1651.10.1126/science.20478722047872Search in Google Scholar
Ewing, C. J., Hausman, C. E, Pogacnik, J., Slot, J. and Bonello, P. 2019. Beech leaf disease: an emerging forest epidemic. Forest Pathology 49: e12488.EwingC. J.HausmanC. EPogacnikJ.SlotJ. and BonelloP.2019. Beech leaf disease: an emerging forest epidemic. 49: e12488.10.1111/efp.12488Search in Google Scholar
Innis, M. A., Myambo, K. B., Gelfand, D. H. and Brow, M. 1988. DNA sequencing with Thermus aquaticus DNA polymerase and direct sequencing of polymerase chain reaction amplified DNA. Proceedings of the National Academy of Sciences USA 85: 9436–9440.InnisM. A.MyamboK. B.GelfandD. H. and BrowM.1988. DNA sequencing with Thermus aquaticus DNA polymerase and direct sequencing of polymerase chain reaction amplified DNA. 85: 9436–9440.10.1073/pnas.85.24.94362827673200828Search in Google Scholar
Ishino, S. and Ishino, Y. 2014. DNA polymerases as useful reagents for biotechnology – the history of developmental research in the field. Frontiers in Microbiology 5: 1–8.IshinoS. and IshinoY.2014. DNA polymerases as useful reagents for biotechnology – the history of developmental research in the field. 5: 1–8.10.3389/fmicb.2014.00465414889625221550Search in Google Scholar
Kanzaki, N., Ichihara, Y., Aikawa, T., Ekino, T. and Masuya, H. 2019. Litylenchus crenatae n. sp. (Tylenchomorpha: Anguinidae), a leaf gall nematode parasitising Fagus crenata Blume. Nematology 21: 5–22.KanzakiN.IchiharaY.AikawaT.EkinoT. and MasuyaH.2019. Litylenchus crenatae n. sp. (Tylenchomorpha: Anguinidae), a leaf gall nematode parasitising Fagus crenata Blume. 21: 5–22.10.1163/15685411-00003190Search in Google Scholar
Pogacnik, J. and Macy, T. 2016. Beech leaf disease. available at: http://forestry.ohiodnr.gov/portals/forestry/pdfs/BLDAlert.pdfPogacnikJ. and MacyT.2016. . available at:http://forestry.ohiodnr.gov/portals/forestry/pdfs/BLDAlert.pdfSearch in Google Scholar
Searcy, D. G., Kisiel, M. J. and Zuckerman, B. M. 1976. Age-related increase of cuticle permeability in the nematode Caenorhabditis briggsae. Experimental Aging Research 2: 293–301.SearcyD. G.KisielM. J. and ZuckermanB. M.1976. Age-related increase of cuticle permeability in the nematode Caenorhabditis briggsae. 2: 293–301.10.1080/036107376082579871017450Search in Google Scholar
Tindall, K. R. and Kunkel, T. A. 1988. Fidelity of DNA synthesis by the Thermus aquaticus DNA polymerase. Biochemistry 27: 6008–6013.TindallK. R. and KunkelT. A.1988. Fidelity of DNA synthesis by the Thermus aquaticus DNA polymerase. 27: 6008–6013.10.1021/bi00416a0272847780Search in Google Scholar