Molecular Detection of Human Bacterial PathogensDongyou Liu As more original molecular protocols and subsequent modifications are described in the literature, it has become difficult for those not directly involved in the development of these protocols to know which are most appropriate to adopt for accurate identification of bacterial pathogens. Molecular Detection of Human Bacterial Pathogens addresses th |
Contents
1 | |
13 | |
23 | |
31 | |
Bifidobacterium
| 45 |
Corynebacterium
| 59 |
Cryptobacterium
| 75 |
Gardnerella
| 81 |
Anaplasma
| 601 |
Bartonella
| 617 |
Brucella
| 629 |
Ehrlichia
| 647 |
Ochrobactrum
| 659 |
Orientia
| 671 |
Rickettsia
| 683 |
Achromobacter
| 703 |
Gordonia
| 95 |
Micrococcus and Kocuria
| 111 |
Mycobacterium
| 117 |
Nocardia
| 127 |
Propionibacterium
| 137 |
Rhodococcus
| 155 |
Saccharopolyspora
| 169 |
Streptomyces
| 175 |
Tropheryma
| 181 |
Tsukamurella
| 189 |
Abiotrophia
| 201 |
Aerococcus
| 211 |
Bacillus
| 219 |
Enterococcus
| 231 |
Granulicatella
| 249 |
Lactobacillus
| 257 |
Leuconostoc
| 269 |
Listeria
| 279 |
Paenibacillus
| 295 |
Staphylococcus
| 307 |
Streptococcus
| 323 |
Acidaminococcus
| 339 |
Anaerococcus Parvimonas and Peptoniphilus
| 349 |
Catabacter
| 361 |
Clostridium
| 367 |
Dialister
| 381 |
Eubacterium
| 391 |
Finegoldia
| 405 |
Mogibacterium
| 415 |
Peptostreptococcus
| 423 |
Tannerella
| 437 |
Veillonella
| 447 |
Mycoplasma
| 455 |
Ureaplasma
| 469 |
Bacteroides
| 491 |
Capnocytophaga
| 501 |
Chlamydia
| 511 |
Chlamydophila
| 523 |
Elizabethkingia Chryseobacterium and Bergeyella
| 537 |
Fusobacterium
| 543 |
Leptotrichia and LeptotrichiaLike Organisms
| 555 |
Porphyromonas
| 567 |
Prevotella
| 585 |
Bordetella
| 709 |
Burkholderia
| 723 |
Eikenella
| 737 |
Kingella
| 745 |
Laribacter
| 751 |
Neisseria
| 757 |
Ralstonia
| 769 |
Acinetobacter
| 781 |
Aeromonas
| 789 |
Aggregatibacter
| 801 |
Cardiobacterium
| 811 |
Cedecea
| 817 |
Citrobacter
| 827 |
Coxiella
| 837 |
Enterobacter
| 853 |
Escherichia
| 869 |
Francisella tularensis
| 881 |
Haemophilus
| 893 |
Klebsiella
| 905 |
Legionella
| 919 |
Moraxella
| 929 |
Pasteurella
| 945 |
Photobacterium
| 959 |
Plesiomonas
| 969 |
Proteus
| 981 |
Providencia
| 997 |
Pseudomonas
| 1009 |
Salmonella
| 1023 |
Serratia
| 1037 |
Shigella
| 1049 |
Stenotrophomonas
| 1063 |
Vibrio
| 1073 |
Yersinia
| 1089 |
Arcobacter
| 1111 |
Campylobacter
| 1125 |
Helicobacter
| 1141 |
Borrelia
| 1155 |
Leptospira
| 1169 |
Treponema
| 1189 |
PanBacterial Detection of SepsisCausative Pathogens
| 1203 |
Metagenomic Approaches for Bacterial Detection and Identification
| 1215 |
Back Cover | 1229 |
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Common terms and phrases
16S rRNA gene Abiotrophia abscess acid acnes actinomycetes amplification anaerobic anaerobius analysis antibiotic antimicrobial Appl Atopobium aureus Bacillus bacteremia bacterial vaginosis Bacteriol bacterium Bacteroides Bifidobacterium biochemical buffer Capnocytophaga caused cell wall Clin Clostridium cocci colonies Corynebacterium culture cycles detection diagnosis disease DNA extraction encoding endocarditis Enterococcus enzyme equi Eubacterium Evol fragment Gardnerella Gardnerella vaginalis genome genus Gordonia gram-positive Granulicatella human hybridization identification identińcation incubation infections isolated Lactobacillus Listeria methods microarray Microbial Microbiol Microbiology microorganisms Mogibacterium molecular monocytogenes multiplex PCR Mycoplasma Nocardia oral organisms pathogens patients PCR assay PCR products Peptostreptococcus periodontal phenotypic phylogenetic plasmid pneumoniae polymerase primers probe Propionibacterium Propionibacterium acnes protein Qiagen rapid reaction real-time PCR resistance Rhodococcus Rhodococcus equi ribosomal ribotyping rRNA gene sequences rRNA sequences samples serovars species Staphylococcus Streptococcus Syst target techniques tests tion tissue toxin Tsukamurella type strain Ureaplasma vaginal vaginalis vancomycin Veillonella virulence