PCR Detection of Microbial Pathogens PCR Detection of Microbial ...

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PCR Technology 81 57. Bulat, S. A., Lübeck, M., Alekhina, I. A., Knudsen, I. M. B., Jensen, D. F. and Lübeck, P. S. (2000) Identification of an UP-PCR derived SCAR marker for an antagonistic strain of Clonostachys rosea and development of a strain-specific PCR detection assay. Appl. Environ. Microbiol. 66, 4758–4763. 58. Louws, F. J., Fulbright, D. W., Stephens, C. T., and de Bruijn, F.J. (1995) Differentiation of genomic structure by rep-PCR fingerprinting to rapidly classify Xanthomonas campestris pv. vesicatoria. Phytopathology 85, 528–536. 59. Meyer, W., Mitchell, T. G., Freedman, E. Z. and Vilgalys, R. (1993) Hybridization probes for conventional DNA fingerprinting used as single primers in the polymerase chain reaction to distinguish strains of Cryptococcus neoformans. J. Clin. Microbiol 31, 2274–2280. 60. Edel, V., Steinberg, C., Avelange, I., Laguerre, G., and Alabouvette, C. (1995) Comparison of three molecular methods for the characterization of Fusarium oxysporum strains. Phytopathology 85, 579–585. 61. Doolittle, R. F. (1990) Molecular evolution: computer analysis of protein and nucleic acid sequences, Methods Enzymol. 183 62. Wheeler, W. C. (1994) Sources of ambiguity in nucleic acid sequence alignment, in Molecular Ecology and Evolution: Approaches and Applications (Schierwater, B., Streit, B., Wagner, G. P., and DeSalle, R., eds.), Birkhäuser Verlag, Basel, pp. 323–352. 63. McPherson, M. J., Jones, K. M., and Gurr, S. J. (1994) PCR with highly degenerate primers, in PCR—A Practical Approach (McPherson, M. J., Quirke, P., and Taylor, G. R., eds.), The Practical Approach Series Vol. 1, Oxford University Press, UK, pp. 171–186. 64. Lübeck, P. S., Paulin, L., Degefu, Y., Lübeck, M., Alekhina, I. A., Bulat, S. A., and Collinge, D. B. (1997) PCR cloning, DNA sequencing and phylogenetic analysis of a xylanase gene from the phytopathogenic fungus Ascochyta pisi Lib. Physiol. Mol. Plant Pathol. 51, 377–389. 65. Bej, A. K., McCarty, S. C., and Atlas, R. M. (1991) Detection of coliform bacteria and Escherichia coli by multiplex polymerase chain reaction: comparison with defined substrate and plating methods for water quality monitoring. Appl. Environ. Microbiol. 57, 2429–2432. 66. Steffan, R. J., and Atlas, R. M. (1991) Polymerase chain reaction: applications in environmental microbiology. Ann. Rev. Microbiol. 45, 137–162. 67. Lee Lang, A., Tsai, Y. -L., Mayer, C. L., Patton, K. C. and Palmer, C. J. (1994) Multiplex PCR for detection of the heat-labile toxin gene and Shiga-like toxin I and II genes in Escherichia coli isolated from natural waters. Appl. Environ. Microbiol. 60, 3145–3149. 68. Geha, D. J., Uhl, J. R., Gustaferro, C. A., and Persing, D. H. (1994) Multiplex PCR for identification of methicillin-resistant Staphylococci in the clinical laboratory. J. Clin. Microbiol. 32, 1768–1772. 69. Liébana, E., Aranaz, A., Mateos, A., et al. (1995) Simple and rapid detection of Mycobacterium tuberculosis complex organisms in bovine tissue samples by PCR. J. Clin. Microbiol. 33, 33–36.
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TM Methods in Molecular Biology VOL
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4 Sachse 2. Selection of Target Seq
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Table 1 Target Sequences Used in PC
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8 Sachse Fig. 1. Structural organiz
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10 Sachse proteins (66-68), invasio
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12 Sachse Since there appears to be
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14 Sachse In the context of identif
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16 Sachse to partially compensate t
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18 Sachse nostic potential of PCR.
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20 Sachse product has to be confirm
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22 Sachse 7. van Camp, G., Fierens,
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24 Sachse 33. Rappelli, P., Are, R.
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26 Sachse 60. Furrer, B., Candrian,
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28 Sachse 89. Bloch, W. (1991) A bi
Page 29 and 30: 30 Sachse
Page 31 and 32: 32 Rådström et al. Fig. 1. Illust
Page 33 and 34: 34 Rådström et al. immunoglobulin
Page 35 and 36: 36 Rådström et al. and the captur
Page 37 and 38: Table 2 Comparison of the Performan
Page 39 and 40: 40 Rådström et al. explain these
Page 41 and 42: 42 Rådström et al. 5.1. Proteins
Page 43 and 44: 44 Rådström et al. neous. Consequ
Page 45 and 46: 46 Rådström et al. 11. Powell, H.
Page 47 and 48: 48 Rådström et al. 39. Katcher, H
Page 49 and 50: 50 Rådström et al. 73. Nagai, M.,
Page 51 and 52: 52 Hoorfar and Cook 2. FOOD-PCR: A
Page 53 and 54: 54 Hoorfar and Cook Fig. 2. Practic
Page 55 and 56: 56 Hoorfar and Cook Fig. 4. The str
Page 57 and 58: Table 58 3 Hoorfar and Cook Test Co
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Page 63 and 64: 64 Hoorfar and Cook 15. Anon. (1995
Page 65 and 66: 66 Lübeck and Hoorfar ods for the
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Page 69 and 70: 70 Lübeck and Hoorfar It may be ne
Page 71 and 72: 72 Lübeck and Hoorfar specificity
Page 73 and 74: 74 Lübeck and Hoorfar The latter i
Page 75 and 76: 76 Lübeck and Hoorfar A simple che
Page 77 and 78: 78 Lübeck and Hoorfar 13. Hanai, K
Page 79: 80 Lübeck and Hoorfar 43. Mitchell
Page 83 and 84: 84 Lübeck and Hoorfar 98. Lantz, P
Page 85 and 86: 88 Frey Table 1 Presence of the Var
Page 87 and 88: 90 Frey 13. Lysis buffer: 100 mM Tr
Page 89 and 90: 92 Frey as template for PCR. In add
Page 91 and 92: 94 Frey strains, including all sero
Page 93 and 94: 96 Frey
Page 95 and 96: 98 Ewalt and Bricker (named for the
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Page 99 and 100: 102 Ewalt and Bricker Primer Cockta
Page 101 and 102: 104 Ewalt and Bricker Fig. 2. Typic
Page 103 and 104: 106 Ewalt and Bricker with betaine
Page 105 and 106: 108 Ewalt and Bricker unused ethidi
Page 107 and 108: 110 Englen et al. which campylobact
Page 109 and 110: 112 Englen et al. 18. Dehydrated cu
Page 111 and 112: 114 Englen et al. 3.1.3. Fecal Samp
Page 113 and 114: 116 Englen et al. respectively), an
Page 115 and 116: 118 Englen et al. Fig. 1. Identific
Page 117 and 118: 120 Englen et al. 3. Goossens, H.,
Page 119 and 120: 122 Englen et al.
Page 121 and 122: 124 Sachse and Hotzel Table 1 Compa
Page 123 and 124: 126 Sachse and Hotzel Table 2 Prime
Page 125 and 126: 128 Sachse and Hotzel 7. Phenol: sa
Page 127 and 128: 130 Sachse and Hotzel 4. Vortex mix
Page 129 and 130: 132 Sachse and Hotzel Fig. 2. Speci
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134 Sachse and Hotzel In the latter
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136 Sachse and Hotzel 17. Longbotto
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138 Popoff spastic paralysis. The g
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Table 3 Primers for Toxin Gene Dete
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142 Popoff 18. Agarose gel loading
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144 Popoff Taq reaction buffer 1X,
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146 Popoff almost all C. perfringen
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148 Popoff 2. Add to each PCR tube
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150 Popoff 7. Hielm, S., Hyyttia, E
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152 Popoff 35. Wieckowski, E., Bill
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154 Berri et al. 2. Materials 1. C.
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156 Berri et al. 3.3.2. Vaginal Swa
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158 Berri et al. Fig. 1. Trans-PCR.
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160 Berri et al. Fig. 3. Sensitivit
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162 Berri et al.
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164 Gallien The first description o
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166 Gallien
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168 Gallien 2. Materials 2.1. Bacte
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170 Gallien 10. Ethidium bromide: 1
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Table 2 Components (in µL) of 25-
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Table 4 Components (in µL) of 25-
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176 Gallien 3.3. Specific Isolation
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Table 6 PCR Conditions for Subtypin
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180 Gallien Fig. 3. Photographic im
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182 Gallien 3. Boyce, T. G., Swerdl
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184 Gallien enteropathogenic E. col
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186 O'Connor This chapter will desc
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188 O'Connor 2.2. PCR of Enriched F
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190 O'Connor 4. Notes 1. In enrichi
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192 O'Connor 4. O’Sullivan, N., F
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194 Lester and LeFebvre titers (4).
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196 Lester and LeFebvre 3.1.2. Samp
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Fig. 1. Sensitivity of the PCR assa
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200 Lester and LeFebvre 5. Swart, K
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202 Skuce et al. Table 1 Significan
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204 Skuce et al. commercial kits. E
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206 Skuce et al. Fig. 1. Schematic
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208 Skuce et al. 5. Disposable ster
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210 Skuce et al. 2.5.2. Sequence An
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212 Skuce et al. 2. Carefully trans
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Table 4 Recommended PCR Amplificati
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216 Skuce et al. Fig. 3. PCR produc
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218 Skuce et al. Fig. 5. Spoligotyp
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220 Skuce et al. 14. Aranaz, A., Li
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222 Skuce et al.
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224 Khan Simultaneous detection of
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226 Khan 10. Incubate for 20 min at
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228 Khan 5. Periodically, multiplex
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230 Khan
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232 Hotzel et al. tis (2). Particul
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234 Hotzel et al. 8. Sodium dodecyl
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236 Hotzel et al. 3. Methods 3.1. D
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238 Hotzel et al. 3.1.5. Semen (see
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240 Hotzel et al. Fig. 1 Detection
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242 Hotzel et al. 4. Notes 1. The u
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244 Hotzel et al. in Mycoplasma Pro
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246 Hotzel et al.
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248 Kobisch and Frey PCR assay to d
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250 Kobisch and Frey Table 1 Oligon
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252 Kobisch and Frey 3.2.1. Prepara
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254 Kobisch and Frey First round of
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256 Kobisch and Frey References 1.
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258 Christensen et al. thrombotic m
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260 Christensen et al. Table 1 Spec
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Table 2 Oligonucleotide Primers for
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264 Christensen et al. 3.2. Extract
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Table 3 PCR Protocols for the Patho
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268 Christensen et al. 2. Apply fra
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270 Christensen et al. 7. To reduce
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272 Christensen et al. 24. Fisher,
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274 Christensen et al. 54. Hunt, M.
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276 Malorny and Helmuth valent meta
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278 Malorny and Helmuth 12. Apparat
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280 Malorny and Helmuth 3.3. Amplif
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282 Malorny and Helmuth Table 2 Vol
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284 Malorny and Helmuth Table 4 PCR
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286 Malorny and Helmuth 3. Wallace,
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288 Malorny and Helmuth
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290 Wastling and Mattsson is an imp
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292 Wastling and Mattsson 2. Remove
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294 Wastling and Mattsson Fig. 1. B
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296 Wastling and Mattsson time PCR
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298 Wastling and Mattsson
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300 Pozio and La Rosa Table 1 Princ
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302 Pozio and La Rosa regions; spot
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304 Pozio and La Rosa 3. Proteinase
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306 Pozio and La Rosa Table 3 PCR-R
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308 Pozio and La Rosa 2. Pepsin sho
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310 Pozio and La Rosa
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312 Knutsson and Rådström The ref
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314 Knutsson and Rådström Fig. 1.
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316 Knutsson and Rådström 2.4. El
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318 Knutsson and Rådström the swa
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320 Knutsson and Rådström Fig. 3.
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322 Knutsson and Rådström 4. Alek
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324 Knutsson and Rådström 34. Hee
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