[1] Churchill RLT, Lee H, Hall JC. Detection of Listeria monocytogenes and the toxin listeriolysin O in food. J Microbiol Methods, 2006, 64(2): 141–170.
[2] Hudson JA, Lake RJ, Savill MG, Scholes P, McCormick RE. Rapid detection of Listeria monocytogenes in ham samples using immunomagnetic separation followed by polymerase chain reaction. J Appl Microbiol, 2001, 90(4): 614–621.
[3] Lunge VR, Miller BJ, Livak KJ, Batt CA. Factors affect-ing the performance of 5' nuclease PCR assays for Listeria monocytogenes detection. J Microbiol Methods, 2002, 51(3): 361–368.
[4] Wery N, Pourcher AM, Stan V, Delgenes JP, Picard- Bon-naud F, Godon JJ. Survival of Listeria monocytogenes and Enterococcus faecium in sludge evaluated by real-time PCR and culture methods. Lett Appl Microbiol, 2006, 43(2): 131–136.
[5] 金莉莉, 王秋雨, 侯潇. ERIC-PCR技术在李斯特氏菌种、菌株鉴定中的应用. 遗传, 2003, 25(2): 195–197.
[6] Oyarzabal OA, Behnke NM, Mozola MA. Validation of a microwell DNA probe assay for detection of Listeria spp. in foods - Performance-tested Method (SM) 010403. J AOAC Int, 2006, 89(3): 651–668.
[7] Kavanagh P, Leech D. Redox polymer and probe DNA tethered to gold electrodes for enzyme-amplified am perometric detection of DNA hybridization. Anal Chem, 2006, 78(8): 2710–2716.
[8] Garaizar J, Rementeria A, Porwollik S. DNA microarray technology: a new tool for the epidemiological typing of bacterial pathogens? FEMS Immunol Med Microbiol, 2006, 47(2): 178–189.
[9] Pan Q, Zhang RY, Bai YF, He NY, Lu ZH. An electro-chemical approach for detection of specific DNA-binding protein by gold nanoparticle-catalyzed silver enhancement. Anal Biochem, 2008, 375(2): 179–186.
[10] Liu AL, Peng TZ, Cheng Q. Electrochemical detection of DNA sequences using nano-magnetic particles. Cheml J Chinese Universities-Chinese, 2005, 26(2): 231–234.
[11] Zhang HX, Wang SY, Xi JZ, Rao XH. Examinating Listeia monocytogenes with fluoresence quantitative PCR. J Pub Health and PrevMed, 2005, 16(2): 13–15.
[12] Sun XY, He PG, Liu SH, Ye JN, Fang YZ. Immobilization of single-stranded deoxyribonucleic acid on gold electrode with self-assembled aminoethanethiol monolayer for DNA electrochemical sensor applications. Talanta, 1998, 47(2): 487–495.
[13] Ge CW, Liao JH, Yu W, Gu N. Electric potential control of DNA immobilization on gold electrode. Biosens Bioelectron, 2003, 18(1): 53–58.
[14] Pang DW, Abruha HD. Micromethod for the investigation of the interactions between DNA and redox-active mole-cules. Anal Chem, 1998, 70(15): 3162–3169.
[15] 韩俊英, 曾瑞萍, 程钢, 胡彬, 李虎, 赖永榕. 应用实时定量RT-PCR技术检测ß地中海贫血珠蛋白基因的表达. 遗传, 2005, 27(1): 57–64.
[16] 林栲, 李海鹏. DNA水平上检测正选择方法的研究进展. 遗传, 2009, 31(9): 896–902.
[17] Liu DY. Identification, subtyping and virulence determi-nation of Listeria monocytogenes, an important foodborne pathogen. J Med Microbiol, 2006, 55(6): 645–659.
[18] Gibson UEM, Heid CA, Williams PM. A novel method for real time quantitative RT PCR. Genome Res, 1996, 6(10): 995–1001.
[19] Wang J. Electrochemical detection for microscale analyti-cal systems: a review. Talanta, 2002, 56(2): 223–231.
[1] Churchill RLT, Lee H, Hall JC. Detection of Listeria monocytogenes and the toxin listeriolysin O in food. J Microbiol Methods, 2006, 64(2): 141–170.
[2] Hudson JA, Lake RJ, Savill MG, Scholes P, McCormick RE. Rapid detection of Listeria monocytogenes in ham samples using immunomagnetic separation followed by polymerase chain reaction. J Appl Microbiol, 2001, 90(4): 614–621.
[3] Lunge VR, Miller BJ, Livak KJ, Batt CA. Factors affect-ing the performance of 5' nuclease |