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MBD0029

Sigma-Aldrich

Porphyromonas gingivalis FISH probe - Cy3

Probe for fluorescence in situ hybridization (FISH),20 μM in water

Synonym(s):

In-situ hybridization, bacterial fish probes, fish analysis, fish probes, fish technology, fish testing, fluorescence in situ hybridization, fluorescent in situ hybridization, in situ hybridization

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About This Item

UNSPSC Code:
12352200
NACRES:
NA.55

Quality Level

technique(s)

FISH: suitable

fluorescence

λex 550 nm; λem 570 nm (Cy3)

shipped in

dry ice

storage temp.

−20°C

General description

Fluorescent In Situ Hybridization technique (FISH) is based on the hybridization of fluorescent labeled oligonucleotide probe to a specific complementary DNA or RNA
sequence in whole and intact cells.1 Microbial FISH allows the visualization, identification and isolation of bacteria due to recognition of ribosomal RNA also in unculturable samples.2

FISH technique can serve as a powerful tool in the microbiome research field by allowing the observation of native microbial populations in diverse microbiome environments, such as samples from human origin (blood3 and tissue4), microbial ecology (solid biofilms5 and aquatic systems6) and plants7. It is strongly recommended to include positive and negative controls in FISH assays to ensure specific binding of the probe of interest and appropriate protocol conditions. We offer positive (MBD0032/33) and negative control (MBD0034/35) probes, that accompany the specific probe of interest.

Porphyromonas gingivalis probe specifically recognizes P. gingivalis cells. P. gingivalis, is a gram negative bacterium which is an etiologic agent of adult periodontitis, a chronic inflammatory disease characterized by the destruction of the supportive tissue surrounding teeth. Studies have shown that LPS from P. gingivalis plays an important role in this disease.8-11 The association of the oral microbiota, including P. gingivalis, with various pathological states has been reported. These include development of Alzheimer′s disease12, role in oral cancers13, preterm birth14 and rheumatoid arthritis15. FISH technique was successfully used to identify P. gingivalis with the probe in various samples such as pure culture (as described in the figure legends), dental implants16,17 , periapical tooth lesions18, saliva19, brain tissue20, gingival and aortic tissues21, biofilms from voice prostheses22, subgingival biofilm23, aortic wall tissue24, and infected HeLa cells25. Moreover, FISH can be implicated to identify P. gingivalis in tumor tissue26, multispecies biofilm27, multispecies oral biofilms28 and pure culture and buccal epithelial cells29.

Application

Probe for fluorescence in situ hybridization (FISH),recognizes Porphyromonas gingivalis cells

Features and Benefits

  • Visualize, identify and isolate Porphyromonas gingivalis cells.
  • Observe native P. gingivalis cell populations in diverse microbiome environments.
  • Specific, sensitive and robust identification of P. gingivalis in bacterial mixed population.
  • Specific, sensitive and robust identification even when P. gingivalis is in low abundance in the sample.
  • FISH can complete PCR based detection methods by avoiding contaminant bacteria detection.
  • Provides information on P. gingivalis morphology and allows to study biofilm architecture.
  • Identify P. gingivalis in clinical samples such as, tumor and brain tissues (for example in formalin-fixed paraffin-embedded (FFPE) samples), saliva and oral cavity and medical equipment such as, dental implants and voice prostheses.
  • The ability to detect P. gingivalis in its natural habitat is an essential tool for studying host-microbiome interaction.

Storage Class Code

12 - Non Combustible Liquids

WGK

nwg

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


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Patricia Romero-Lastra et al.
PloS one, 14(8), e0221234-e0221234 (2019-08-23)
Porphyromonas gingivalis, an oral microorganism residing in the subgingival biofilm, may exert diverse pathogenicity depending on the presence of specific virulence factors, but its gene expression has not been completely established. This investigation aims to compare the transcriptomic profile of
Irina M Velsko et al.
Infection and immunity, 83(12), 4582-4593 (2015-09-16)
The American Heart Association supports an association between periodontal diseases and atherosclerosis but not a causal association. This study explores the use of the integrin β6(-/-) mouse model to study the causality. We investigated the ability of a polymicrobial consortium
Chunrong Chang et al.
Applied microbiology and biotechnology, 103(3), 1393-1404 (2018-11-25)
Mounting evidence suggests a causal relationship between specific bacterial infections or microbial compositions and the development of certain malignant neoplasms. In this study, we performed research through 16S rRNA amplicon sequencing, qPCR and fluorescence in situ hybridization to certify the
Érika Gomes Sarmento et al.
Food research international (Ottawa, Ont.), 116, 1282-1288 (2019-02-06)
Probiotics are widely used in the food industry and may affect the oral microbiota. This study aimed to evaluate the effect of petit-suisse plus probiotic on the microbiota of children's saliva. Strawberry flavor petit-suisse cheese plus green banana flour without
Sim K Singhrao et al.
Journal of oral microbiology, 9(1), 1270602-1270602 (2017-03-23)
This study explored the origin of age-related granules in the apolipoprotein E gene knockout (ApoE-/-) B6 background mice brains following chronic gingival infection with Porphyromonas gingivalis for 24 weeks. Intracerebral localization of P. gingivalis was detected by fluorescence in situ hybridization

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