 |
 |
 |
 |
 |
 |
Sains Malaysiana 43(12)(2014): 1965–1972
Development of the Double Digest Selective Label (DDSL) Typing Technique and It Application to Staphylococcus aureus Epidemiology (Pembangunan Label Terpilih Cernaan Berganda (DDSL)
Teknik Penjenisan dan Pemakaiannya dalam Epidemiologi Staphylococcus aureus)
V. TERLETSKIY1, V. TYSHCHENKO1, D.A. MYRZAKOZHA2*, O.O. ZHANSERKENOVA2,
Y.S. USSENBEKOV2 & NURBEK L. ADAEV3
1All-Russia
Research Institute of Farm Animal Genetics and Breeding
Moscowskoye sh. 55a, 196625, St.
Petersburg-Pushkin, Russia
2Kazakhstan National
Agrarian University, Abaj str. 8, Almaty, Kazakhstan
3Chechen Research
Institute of Agriculture, Lenin str. 1, Gikalo village, Groznij district,
366021 Russia
Received: 31 December 2012/Accepted: 13 August 2014
ABSTRACT
Bacterial typing is a key technology in human and veterinary
medicine, community health, consumer protection and in agricultural research.
The importance of the development of epidemiological tracking tools is underlined
by numerous outbreaks of diseases due to bacterial pathogens. Particularly
important is tracing pathogen dissemination in ‘real time’ i.e. to use a fast
typing technique to distinguish between clonally related (epidemic) strains and
unrelated (sporadic) strains. The aim of the research was to develop a fast
discriminatory molecular typing technique - double digest selective label (DDSL)
for Staphylococcus aureus isolates
and to compare typing data with that obtained by pulsed-field gel electrophoresis.
In this new typing method, large DNA fragments are produced with a restriction
enzyme commonly used for PFGE but are trimmed by a second enzyme to a
size which can be separated on a conventional agarose gel within a short period
of time. Selective labelling of a subset of the numerous restriction fragments
gives a distinct banding pattern for each isolate. Discriminatory power
obtained with DDSL calculated over two different sets was higher than that of
pulsed-field gel electrophoresis. Clusters of identical isolates were further
resolved to unique DDSL strains. Two combinations of restriction
enzymes for DDSL technique has been proposed with approximately equal
discriminatory power. It has been demonstrated that DDSL approach is a fast,
discriminatory alternative to other typing techniques suitable for short-term
epidemiological studies.
Keywords: DDSL; DNA;
electrophoresis; epidemiology; fingerprinting; Staphylococcus aureus
ABSTRAK
Penjenisan bakteria adalah teknologi utama dalam
perubatan manusia dan haiwan, kesihatan masyarakat, perlindungan pengguna dan
penyelidikan pertanian. Kepentingan pembangunan alat pengesanan
epidemiologi digariskan oleh pelbagai wabak penyakit yang disebabkan oleh
patogen bakteria. Adalah amat penting untuk mengesan penyebaran patogen
secara ‘masa nyata’ iaitu untuk menggunakan teknik penjenisan pantas untuk
membezakan antara strain berkaitan klon (wabak) dan strain tidak berkaitan
(setempat-setempat). Kajian ini bertujuan untuk membangunkan teknik penjenisan
diskriminasi molekul pantas- label terpilih cernaan berganda (DDSL) bagi pengasingan Staphylococcus aureus dan untuk membandingkan
penjenisan data dengan yang diperoleh melalui elektroforesis jel medan denyut.
Dalam kaedah penjenisan baru ini, cebisan DNA yang besar dihasilkan
dengan enzim sekatan yang biasanya digunakan untuk PFGE tetapi
dikemaskan oleh enzim kedua kepada saiz yang boleh dipisahkan dengan jel
konvensional agarosa dalam tempoh masa yang singkat. Pelabelan
terpilih sebahagian daripada cebisan sekatan yang banyak memberikan corak
banding yang berlainan bagi setiap pencilan. Kuasa diskriminasi yang
diperoleh dengan DDSL dikira menggunakan dua set yang berbeza
adalah lebih tinggi daripada elektroforesis jel medan denyut. Kelompok pencilan seiras telah dileraikan kepada strain DDSL yang unik. Kombinasi
dua sekatan enzim untuk teknik DDSL telah dicadangkan dengan kuasa
diskriminasi yang hampir sama. Ia telah menunjukkan
bahawa pendekatan DDSL adalah pantas dan diskriminasi alternatif
kepada lain-lain teknik penjenisan yang sesuai untuk kajian epidemiologi jangka
pendek.
Kata kunci: DDSL; DNA;
elektroforesis; epidemiologi; pencapjarian; Staphylococcus
aureus
REFERENCES
Al-Zahrani, I.A., Hamson,
C., Edge, D., Collins, J., Perry, J.D., Raza, M., Gould, K. & Harwood, C.R.
2011. SmaI restriction
site-based multiplex PCR for typing of hospital-and community-acquired Staphylococcus
aureus. J. Clin. Microbiol. 49: 3820-3828.
Argudin, M.A., Fetsch, A., Tenhagen, B.A.,
Hammerl, J.A., Hertwig, S., Kowall, J., Rodicio, M.R., Kasbohrer, A., Helmuth,
R., Schroeter, A., Mendoza, M.C., Braunig, J., Appel, B. & Guerra, B.
2010a. High heterogeneity within methicillin-resistant Staphylococcus aureus ST398 isolates, defined by Cfr9I macrorestriction-pulsed-field gel
electrophoresis profiles and spa and SCCmec types. Appl.
Environ. Microbiol. 76: 652-658.
Argudin, M.A., Rodicio,
M.R. & Guerra, B. 2010b. The emerging methicillin-resistant Staphylococcus aureus ST398
clone can easily be typed using the Cfr9I SmaI-neoschizomer. Lett. Appl.
Microbiol. 50: 127-130.
Bikandi, J., San Millán,
R., Rementeria, A. & Garaizar, J. 2004. In silico analysis of complete bacterial
genomes: PCR, AFLP-PCR, and endonuclease restriction. Bioinformatics 22:
798-799.
Blanc, D.S. 2004. The use of
molecular typing for epidemiological surveillance and investigation of endemic
nosocomial infections. Infect. Genet. Evol. 4: 193-197.
Boers, S.A., van Ess, I., Euser, S.M.,
Jansen, R., Tempelman, F.R. & Diederen, B.M. 2011.
An outbreak of a multiresistant methicillin-susceptible Staphylococcus
aureus (MR-MSSA) strain in a burn centre: the importance of routine
molecular typing. Burns. 37: 808-813.
Bosch, T., de Neeling, A.J., Schouls, L.M., van
der Zwaluw, K.W., Kluytmans, J.A., grundmann, H. & Huijsdens, X.W. 2010. PFGE diversity within the methicillin-resistant Staphylococcus
aureus clonal lineage ST398. BMC Microbiol. 10: 40.
Davis, M.A., Hancock, D.D.,
Besser, T.E. & Call, D.R. 2003. Evaluation of pulsed-field gel electrophoresis as a tool for
determining the degree of genetic relatedness between strains of Escherichia
coli O157:H7. J. Clin. Microbiol. 41: 1843-1849.
Fakhr, M.K., Nolan, L.K. & Logue, C.M. 2005.
Multilocus sequence typing lacks the discriminatory ability of pulsed-field gel
electrophoresis for typing Salmonella enterica serovar Typhimurium. J.
Clin. Microbiol. 43: 2215-2219.
Feßler, A.T., Kadlec, K., Hassel, M., Hauschild,
T., Eidem, C., Ehricht, R., Monecke, S. & Schwatz, S. 2011.
Characterization of methicillin-resistant Staphylococcus aureus isolates
from food and food products of poultry origin in Germany. Appl. Environ.
Microbiol. 77: 7151-7157.
Feßler, A., Scott, C., Kadlec, K., Enricht, R.,
Monecke, S. & Schwarz, S. 2010. Characterization of
methicillin-resistant Staphylococcus aureus ST398 from cases of bovine
mastitis. J. Antimicrob. Chemother. 65: 619-625.
Foley, S.L., Simjee, S., Meng, J., White, D.G.,
McDermott, P.F. & Zhao, S. 2004. Evaluation of molecular typing methods for Escherichia coli O157:H7 isolates from cattle, food, and humans. J.
Food Prot. 67: 651-657.
Foxman, B., Zhang, L.,
Koopman, J.S., Manning, S.D. & Marrs, C.F. 2005. Choosing an appropriate bacterial typing
technique for epidemiological studies. Epidemiol. Perspect. Innov. 2:
10-17.
Francois, P., Huyghe, A., Charbonnier, Y.,
Bento, M., Herzig, S., Topolski, I., Fleury, B., Lew, D., Vaudaux, P.,
Harbarth, S., van Leeuwen, W., van Belkum, A., Blanc, D.S., Pittet, D. &
Schrenzel, J. 2005. Use of an automated multiple-locus, variable-number tandem
repeat-based method for rapid and high-throughput genotyping of Staphylococcus
aureus isolates. J. Clin. Microbiol. 43: 3346-3355.
Koort, J.M.K., Lukinmaa, S., Rantala, M.,
Unkila, E. & Siitonen, A. 2002. Technical improvement to
prevent DNA degradation of enteric pathogens in pulsed-field gel
electrophoresis. J. Clin. Microbiol. 40: 3497-3498.
Melles, D.C., Gorkink, D.F.J., Boelens, H.A.M.,
Snijders, S.V., Peeters, J.K., Moorhouse, M.J., van der Spek, P.J., van
Leeuwen, W.B., Simons, G., Verbrugh, H.A. & van Belkum, A. 2004. Natural population dynamics and expansion of pathogenic clones of Staphylococcus
aureus. J. Clin. Invest. 114: 1732-1740.
Mitani, N., Koizumi, A.,
Sano, R., Masutani, T., Murakawa, K., Mikasa, K. & Okamoto, Y. 2005. Molecular typing of
methicillin-resistant Staphylococcus aureus by PCR-RFLP and its
usefulness in an Epidemiological study of an outbreak. Jpn. J.
Infect. Dis. 58: 250-252.
Terletskiy, V., Tyshchenko,
V., Martinez-Ballesteros, I., Garaizar, J. & Bikandi, J. 2010. Validation of double digest selective label
database for sequenced prokaryotic genomes. Bioinformatics 26: 417-418.
Terletskiy, V., Kuhn, G., Francioli, P. & Blanc, D.S. 2008. Application and evaluation of double digest selective label
(DDSL) typing technique for Pseudomonas aeruginosa hospital isolates. J.
Microbiol. Methods 72: 283-287.
Terletskiy, V.,
Michael, G.B. & Schwarz, S. 2004. Subtracted restriction fingerprinting - a
new typing technique using magnetic capture of tagged restriction fragments. FEMS
Immunol. Med. Microbiol. 41: 1-8.
Trindade, P.A., McCulloh, J.A., Oliveira, G.A. &
Mamizuka, E.M. 2003. Molecular techniques for MRSA typing: Current issues and
perspectives. Braz. J. Infect. Dis. 7: 32-43.
Willse, A., Straub, T.M., Wunschel,
S.C., Small, J.A., Call, D.R., Daly, D.S. & Chandler, D.P. 2004. Quantitative oligonucleotide microarray fingerprinting of Salmonella
enterica isolates. Nucleic Acids Res. 32: 1848-1856.
*Corresponding author; email: myrzakozha@yahoo.com
|
|||
|
