Validering av realtids-PCR-metod för Herpes simplex- och Varicella-zoster virus / Validation of a real-time PCR-analysis for Herpes simplex- and Varicella zoster viruses

Savill, Rachel

January 2015

No description available.

PCR

TaqMan probe

SYBRgreen

The Identification of novel genes differentially expressed in Haemopoietic progenitor cells.

Gregorio-King, Claudia C, mikewood@deakin.edu.au

January 2001

The biochemical and molecular processes that maintain the stem cell pool, and govern the proliferation and differentiation of haemopoietic stem/progenitor cells (HSPCs) have been widely investigated but are incompletely understood. The purpose of this study was to identify and characterise novel genes that may play a part in regulating the mechanisms that control the proliferation, differentiation and self-renewal of human HSPCs. Reverse transcription differential display polymerase chain reaction (dd-PCR) was used to identify differences in gene expression between a HSPC population defined by expression of the CD34 phenotype, and the more mature CD34 depleted populations. A total of 6 differentially expressed complementary deoxyribonucleic acid (cDNA) sequences were identified. Four of these transcripts were homologous to well characterised genes, while two (band 1 and band 20) were homologous to unknown and uncharacterised partial gene sequences on the GenBank database and were thus chosen for further investigation. The partial cDNA sequences for band 1 and band 20 were designated ORP-3 and MERP-1 (respectively) due to homologies with other well-characterised gene families. Differential expression of the ORP-3 and MERP-1 genes was confirmed using Taqman™ real-time polymerase chain reaction (PCR) with 3 - 4-fold and 4-10 -fold higher levels in the CD34+ fractions of haemopoietic cells compared to CD34- populations respectively. Additionally, expression of both these genes was down regulated with proliferation and differentiation of CD34+ cells further confirming higher expression in a less differentiated subset of haemopoietic cells. The full coding sequences of ORP-3 and MERP-1 were elucidated using bioinformatics, rapid amplification of cDNA ends (RACE) and PCR amplification. The MERP-1 cDNA is 2600 nucleotides (nt) long, and localizes by bioinformatics to chromosome 7.. It consists of three exons and 2 introns spanning an entire length of 31.4 kilobases (kb). The MERP-1 open reading frame (ORF) codes for a putative 344 amino acid (aa) type II transmembrane protein with an extracellular C-terminal ependymin like-domain and an intracellular N-terminal sequence with significant homology to the cytoplasmic domains of members of the protocadherin family of transmembrane glycoproteins. Ependymins and protocadherins are well-characterised calcium-dependant cell adhesion glycoproteins. Although the function of MERP-1 remains to be elucidated, it is possible that MERP-1 like its homologues plays a role in calcium dependent cell adhesion. Differential expression of the MERP-1 gene in haemopoietic cells suggests a role in haemopoietic stem cell proliferation and differentiation, however, its broad tissue distribution implies that it may also play a role in many cell types. Characterization of the MERP-1 protein is required to elucidate these possible roles. The ORP-3 cDNA is 6631nt long, and localizes by bioinformatics to chromosome 7pl5-p21. It consists of 23 exons and 22 introns spanning an entire length of 183.5kb. The ORP-3 ORF codes for a putative 887aa protein which displays the consensus sequence for a highly conserved oxysterol-binding domain. Other well-characterised proteins expressing these domains have been demonstrated to bind oxysterols (OS) in a dose dependant fashion. OS are hydroxylated derivatives of cholesterol Their biological activities include inhibition of cholesterol biosynthesis and cell proliferation in a variety of cell types, including haemopoietic cells. Differential expression of the ORP-3 gene in haemopoietic cells suggests a possible role in the transduction of OS effects on haemopoietic cells, however, its broad tissue distribution implies that it may also play a role in many cell types. Further investigation of ORP-3 gene expression demonstrates a significant correlation with CD34+ sample purity, and 2-fold higher expression in a population of haemopoietic cells defined by the CD34+38- phenotype compared to more mature CD34+38+ cells. This finding, taken together with the previous observation of down-regulation of ORP-3 expression with proliferation and differentiation of CD34+ cells, indicates that ORP-3 expression may be higher in a less differentiated subset of cells with a higher proliferative capacity. This hypothesis is supported by the observation that expression of the ORP-3 gene is approximately 2-fold lower in differentiated HL60 promyelocytic cells compared to control, undifferentiated cells. ORP-3 expression in HL60 cells during normal culture conditions was also found to vary with expression positively correlated with cell number. This indicates a possible cell cycle effect on ORP-3 gene expression with levels highest when cell density, and therefore the percentage of cells in G(0)/G(1) phase of the cell cycle is highest. This observation also correlates with the observation of higher ORP-3 expression in CD34+38-cells, and in CD34+ and HL60 cells undergoing OS induced and camptothecin induced apoptosis that is preceded by cell cycle arrest at G(0)/G(1). Expression of the ORP-3 gene in CD34+ HSPCs from UCB was significantly decreased to approximately half the levels observed in control cells after 24 hours incubation in transforming growth factor beta-1 (TGFâl). As ≥90% of these cells are stimulated into cell cycle entry by TGFâl, this observation further supports the hypothesis that ORP-3 expression is highest when cells reside in the G(0)/G(1) phase of the cell cycle. Data obtained from investigation of ORP-3 gene expression in synchronised HL60 cells however does not support nor disprove this hypothesis. Culture of CD34+ enriched HSPCs and HL60 cells with 25-OHC significantly increased ORP-3 gene expression to approximately 1.5 times control levels. However, as 25-OHC treatment also increased the percentage of apoptotic cells in these experiments, it is not valid to make any conclusions regarding the regulation of ORP-3 gene expression by OS. Indeed, the observation that camptothecin induced apoptosis also increased ORP-3 gene expression in HL60 cells raises the possibility that up-regulation of ORP-3 gene expression is also associated with apoptosis, Taken together, expression of the ORP-3 gene appears to be regulated by differentiation and apoptosis of haemopoietic progenitors, and may also be positively associated with proliferative and G(0)/G(1) cell cycle status indicating a possible role in all of these processes. Given the important regulatory role of apoptosis in haemopoiesis and differential expression of the ORP-3 gene in haemopoietic progenitors, final investigations were conducted to examine the effects OS on human HSPCs. Granulocyte/macrophage colony forming units (CFU-GM) generated from human bone marrow (ABM) and umbilical cord blood (UCB) were grown in the presence of varying concentrations of three different OS - 7keto-cholesterol (7K-C), 7beta-hydroxycholesterol (7p-OHC) and 25-hydroxycholesterol (25-OHC). Similarly, the effect of OS on HL60 and CD34+ cells was investigated using annexin-V staining and flow cytometry to measure apoptosis. Reduction of nitroblue tetrazolium (NBT) was used to assess differentiative status of HL60 cells. CFU-GM from ABM and HL60 growth was inhibited by all three OS tested, with 25-OHC being the most potent. 25-OHC inhibited ≥50% of bone marrow CFU-GM and ≥95% of HL60 cell growth at a level of 1 ug/ml. Compared to UCB, CFU-GM derived from ABM were more sensitive to the effects of all OS tested. Only 25-OHC and 7(5-OHC significantly inhibited growth of UCB derived CFU-GM. OS treatment increased the number of annexin-V CD34+ cells and NBT positive HL60 cells indicating that OS inhibition of CFU-GM and HL60 cell growth can be attributed to induction of apoptosis and differentiation. From these studies, it can be concluded that dd-PCR is an excellent tool for the discovery of novel genes expressed in human HSPCs. Characterisation of the proteins encoded by the novel genes ORP-3 and MERP-1 may reveal a regulatory role for these genes in haemopoiesis. Finally, investigations into the effects of OS on haemopoietic progenitor cells has revealed that OS are a new class of inhibitors of HSPC proliferation of potential relevance in vivo and in vitro.

identification of novel genes

haemopoietic progenitor cells

Taqman

A quantitative real-time PCR assay for Ehrlichia ruminantium using pCS20

Steyn, HC, Pretorius, A, McCrindle, CME

10 April 2008

Heartwater is a tick borne disease that affects ruminants and wild animals in Africa south of the Sahara. It is caused by Ehrlichia ruminantium and transmitted by the tick Amblyomma hebraeum. The protocols currently used to detect heartwater take several days to complete. Here, we describe the development of a pCS20 quantitative real-time PCRTaqMan probe assay to detect E. ruminantium in livestock blood and ticks from the field. The assay is based on the conserved pCS20 gene region of E. ruminantium that contains two overlapping genes, rnc and ctaG [Collins, N.E., Liebenberg, J., De Villiers, E.P., Brayton, K.A., Louw, E., Pretorius, A., Faber, F.E., Van Heerden, H., Josemans, A., Van Kleef, M., Steyn, H.C., Van Strijp, M.F., Zweygarth, E., Jongejan, F., Maillard, J.C., Berthier, D., Botha, M., Joubert, F., Corton, C.H., Thomson, N.R., Allsopp, M.T., Allsopp, B.A., 2005. The genome of the heartwater agent Ehrlichia ruminantium contains multiple tandem repeats of actively variable copy number. PNAS 102, 838–843]. The pCS20 quantitative real-time PCRTaqMan probe was compared to the currently used pCS20 PCR and PCR/32P-probe test with regards to sensitivity, specificity and the ability to detect DNA in field samples and in blood from experimentally infected sheep. This investigation showed that the pCS20 quantitative real-time PCRTaqMan probe was the most sensitive assay detecting seven copies of DNA/ml of cell culture. All three assays, however, cross react with Ehrlichia canis and Ehrlichia chaffeensis. The pCS20 real-time PCR detected significantly more positive field samples. Both the PCR and pCS20 real-time PCR could only detect E. ruminantium parasites in the blood of experimentally infected sheep during the febrile reaction. The PCR/32P-probe assay, however, detected the parasite DNA 1 day before and during the febrile reaction. Thus, because this new quantitative pCS20 real-time PCRTaqMan probe assay was the most sensitive and can be performed within 2 h it is an effective assay for epidemiological surveillance and monitoring of infected animals.

pCS20

Quantitative real-time PCR TaqMan probe

Caractérisation de Pseudomonas syringae pv. actinidiae l’agent responsable de l’émergence d’une épidémie de chancre bactérien du kiwi en France et description de Pseudomonas syringae pv. actinidifoliorum, agent causal de taches foliaires sur kiwi. / Characterization of Pseudomonas syringae pv. actinidiae the ca sal agent of a kiwifruit bacterial canker epidemic in France and description of Pseudomonas syringae pv. actinidifoliorum the causal agent of leaf spots on kiwifruit.

Cunty, Amandine

08 December 2015

La bactérie responsable de chancre sur bois, Pseudomonas syringae pv. actinidiae (Psa), a causé trois épidémies depuis les années 1980 et se décline en trois biovars. La plus récente et dévastatrice (causée par Psa biovar 3), a été détectée pour la première fois en 2008 en Italie et s’est rapidement répandue dans la majorité des pays producteurs de kiwi, dont en France en 2010. Nous avons analysé la diversité de 280 souches de P. syringae isolées de kiwi en France. La caractérisation biologique et l’analyse phylogénétique des souches par MLSA ont révélé que les biovars 1, 2 et 3 appartenaient à une même lignée génétique, groupant également P. s. pv. theae. Les souches de biovar 4 constituent un ensemble de 4 lignées génétiques distinctes qui ont été rassemblées au sein d’un nouveau pathovar (Pseudomonas syringae pv. actinidifoliorum (Psaf)). Ces souches sont caractérisées par une pathogénie réduite (taches foliaires mais pas de chancre). Cette nouvelle classification permet une meilleure gestion des épidémies de chancre bactérien du kiwi. Le développement d’un schéma MLVA composé de 11 VNTRs a permis d’étudier la structuration génétique de populations de Psa biovar 3, de révéler de la diversité au sein de ce pathovar et d’identifier l’origine italienne de l’épidémie en France. Le séquençage du génome de cinq souches de Psaf et la comparaison de ces séquences avec celles d’autres génomes de Psa et Psaf, disponibles sur NCBI, a permis le développement d’un nouvel outil de détection par PCR temps réel, plus spécifique de chaque biovar de Psa et de Psaf. La MLVA et la PCR temps réel développées ici contribueront à l’amélioration de la surveillance de Psa dans le monde. / The causal agent of bacterial canker, Pseudomonas syringae pv. actinidiae (Psa),has been responsible ofthree epidemics since 1980’s.Psa is divided in three biovars. The most recent and severe outbreak (causedby Psa biovar 3) was detected for the first time in Italy in 2008. It has spread very quickly in the main kiwifruit producing countries, as in France in 2010. We analyzed the diversity of 280 strains of P. syringae isolated fromkiwifruit in France. The biological characterization and the phylogenetic analysis of the strains by MLSArevealed that the biovars 1, 2 and 3 belong to the same genetic lineage, which include P. s. pv. theae, as well.The biovar 4 strains, which are structured in 4 distinct genetic lineages, have been grouped in a new pathovar(Pseudomonas syringae pv. actinidifoliorum (Psaf)). These strains are characterized by a low virulence (onlyspots on leaves and no canker on wood). This new classification help with the management of the bacterialkiwifruit canker outbreaks. The development of an MLVA scheme composed of 11 VNTRs allowed to studythe genetic structuration of Psa biovar 3 populations, to reveal the diversity within this pathovar and to identifythe Italian origin of the epidemic in France. The genome sequencing of five Psaf strains and the comparisonbetween these sequences and those of Psa and Psaf genomes already available on NCBI, allowed thedevelopment of a new detection tool by real-time PCR, specific of each Psa biovar and of Psaf. The MLVA andthe real-time PCR based detection technique developed here will contribute to the improvement of the monitoringof kiwifruit bacterial canker around the world.

Pathovar

Actinidifoliorum

Mlsa

Mlva

Dapc

Taqman

Pathovar

Actinidifoliorum

Mlsa

Mlva

Dapc

Taqman

570

PCR digitale pour la détection et la caractérisation de micro-organismes pathogènes au niveau de la cellule unique / Digital PCR for the detection and the characterisation of pathogenic micro-organisms at the single cell level

Trouchet, Amandine

21 October 2016

Nous avons pour but de développer un système microfluidique en gouttes, capable, à l’échelle de la cellule/bactérie unique, de détecter et de co-localiser plusieurs marqueurs génétiques, en utilisant une version digitale et multiplexée de la réaction de polymérisation en chaîne (PCR). Les systèmes de PCR digitale actuellement commercialisés ne le permettent toujours pas. Un tel prototype garantira la présence de multiples marqueurs à l’intérieur d’un même génome, ce qui permettra l’identification du pathogène avec précision et un taux de faux-positifs proche de zéro. Comme première application, nous démontrerons la possibilité de co-localiser quatre gènes de virulence de la souche O157:H7 d’Escherichia coli, un pathogène majeur, qui est détecté dans des échantillons alimentaires ou provenant de fèces cliniques pouvant aussi contenir des E. coli non pathogènes porteuses d’une partie des gènes de virulence. Avant de procéder à des tests TaqMan multicolores en point final, E. coli sera d’abord encapsulée dans des gouttes micrométriques et lysée par la chaleur in situ. Notre objectif est de démontrer que ce test peut être appliqué avec succès à un petit ensemble d’échantillons cliniques ou alimentaires / We aim to develop a prototype of droplet-based microfluidic system capable of detecting and colocalizing multiple genetic markers at the single cell/bacteria level, using the Polymerase Chain Reaction (PCR) in a digital multiplexed version. This cannot be achieved using current commercial digital PCR systems, and should increase the sensitivity and reliability of the detection of pathogens. Importantly, the system will guarantee the presence of multiple markers within the same genome and enable accurate identification, and bring the false positive rate close to zero. As a first application, we will demonstrate the possibility to co-localize 3 virulence genes in the E.coli strain O157:H7, a major foodborne pathogen, which has to be detected in clinical feces samples or food samples, which may also contain non pathogenic E. coli carrying only a subset of these virulence genes. E. Coli will be encapsulated in micrometric droplets, lysed by heating in situ prior performing a multicolour end-point Taqman assay. Our objective is to demonstrate that this test can be successfully applied to real clinical or food samples

Essai TaqMan 4-plex

Microfluidique en goutte

4-plex TaqMan assay

Droplet-based-microfluidic

The identification of candidate genes using cDNA microarray and the analysis of two SNPs of the reelin gene in a South African austistic population

Hajirah Gameeldien

January 2009

<p>Autism is a pervasive developmental disorder (PDD) that&rsquo / s incidence is approximately 1 in 158. It is four times more prevalent in males than females and is believed to be caused by both genetic and environmental factors. Research indicates that several genes are involved in autism and it is believed that these genes act together to produce autism. Many genes implicated in this disorder are involved with brain structure formation and brain functioning. Studies have identified the reelin (RELN) gene as necessary for proper formation of brain, which indicates that RELN abnormalities could contribute to the aetiology of several neurogenetic diseases such as schizophrenia, bipolar and autism. The aims of the study were (i) to genotype two SNPs (exonic rs3622691 and intronic rs736707) in the RELN gene using Taqman&reg / SNP Genotyping assays to detect association with autism in three distinct South African (SA) ethnic groups (Black, Caucasian and Mixed), and (ii) to detect candidate genes that are over and under-expressed in the samples taken from a SA Caucasian autistic group and compare those with samples taken from a healthy Caucasian group using cDNA microarray. The Taqman&reg / study indicated significant association for the intronic SNP, rs736707, with a p-value of 0.0009 in the total SA group. More so, the Mixed group displayed the highest significance amongst the ethnic groups, with a p-value of 0.00014. The microarray study yielded 21 genes with 95% significance in the Caucasian sample group. Most genes were hypothetical proteins and formed part of the FAM90A family. The LOC83459 showed the highest level of expression in the autistic samples, while the BTNL8 gene was shown to be highly suppressed in the control samples.</p>

Autism

Candidate genes

cDNA Microarray

Reelin gene

SNPs

Taqman.

The identification of candidate genes using cDNA microarray and the analysis of two SNPs of the reelin gene in a South African austistic population

Hajirah Gameeldien

January 2009

<p>Autism is a pervasive developmental disorder (PDD) that&rsquo / s incidence is approximately 1 in 158. It is four times more prevalent in males than females and is believed to be caused by both genetic and environmental factors. Research indicates that several genes are involved in autism and it is believed that these genes act together to produce autism. Many genes implicated in this disorder are involved with brain structure formation and brain functioning. Studies have identified the reelin (RELN) gene as necessary for proper formation of brain, which indicates that RELN abnormalities could contribute to the aetiology of several neurogenetic diseases such as schizophrenia, bipolar and autism. The aims of the study were (i) to genotype two SNPs (exonic rs3622691 and intronic rs736707) in the RELN gene using Taqman&reg / SNP Genotyping assays to detect association with autism in three distinct South African (SA) ethnic groups (Black, Caucasian and Mixed), and (ii) to detect candidate genes that are over and under-expressed in the samples taken from a SA Caucasian autistic group and compare those with samples taken from a healthy Caucasian group using cDNA microarray. The Taqman&reg / study indicated significant association for the intronic SNP, rs736707, with a p-value of 0.0009 in the total SA group. More so, the Mixed group displayed the highest significance amongst the ethnic groups, with a p-value of 0.00014. The microarray study yielded 21 genes with 95% significance in the Caucasian sample group. Most genes were hypothetical proteins and formed part of the FAM90A family. The LOC83459 showed the highest level of expression in the autistic samples, while the BTNL8 gene was shown to be highly suppressed in the control samples.</p>

Autism

Candidate genes

cDNA Microarray

Reelin gene

SNPs

Taqman.

The identification of candidate genes using cDNA microarray and the analysis of two SNPs of the reelin gene in a South African austistic population

Gameeldien, Hajirah

January 2009

Magister Scientiae - MSc / Autism is a pervasive developmental disorder (PDD) that's incidence is approximately 1 in 158. It is four times more prevalent in males than females and is believed to be caused by both genetic and environmental factors. Research indicates that several genes are involved in autism and it is believed that these genes act together to produce autism. Many genes implicated in this disorder are involved with brain structure formation and brain functioning. Studies have identified the reelin (RELN) gene as necessary for proper formation of brain, which indicates that RELN abnormalities could contribute to the aetiology of several neurogenetic diseases such as schizophrenia, bipolar and autism. The aims of the study were (i) to genotype two SNPs (exonic rs3622691 and intronic rs736707) in the RELN gene using Taqman® SNP Genotyping assays to detect association with autism in three distinct South African (SA) ethnic groups (Black, Caucasian and Mixed), and (ii) to detect candidate genes that are over and under-expressed in the samples taken from a SA Caucasian autistic group and compare those with samples taken from a healthy Caucasian group using cDNA microarray. The Taqman® study indicated significant association for the intronic SNP, rs736707, with a p-value of 0.0009 in the total SA group. More so, the Mixed group displayed the highest significance amongst the ethnic groups, with a p-value of 0.00014. The microarray study yielded 21 genes with 95% significance in the Caucasian sample group. Most genes were hypothetical proteins and formed part of the FAM90A family. The LOC83459 showed the highest level of expression in the autistic samples, while the BTNL8 gene was shown to be highly suppressed in the control samples. / South Africa

Autism

Candidate genes

cDNA Microarray

Reelin gene

SNPs

Taqman

Kvantifikace nukleových kyselin pomocí TaqMan sond - možnosti a limity s ohledem na způsob odběru, stáří a kvalitu vzorku lidských tkání / TaqMan-based nucleic acid quantification - abilities and limits with regards to type of collection, age and quality of human specimen

Herzogová, Eva

January 2014

Real-time PCR method is a type of PCR which allows continual monitoring of DNA amplification during every cycle of its process. It is mostly used for gene expression analysis. Based on the results of previous experiments, we decided to test out the effect of anticoagulants EDTA, heparin, sodium citrate and CPDA on the expression of selected genes of the immunological spectrum and further, to test how the time period between drawing the blood and processing of blood sample influences mRNA levels of selected genes that are determined by changes in gene expression and/or mRNA degradation. To quantify mRNA of the studied genes, we isolated total RNA from the peripheral blood leucocytes and transcribed it into cDNA by using the reverse transcription PCR. This cDNA served as a template for the real-time PCR. To examine the changes of the expression caused by the effect of each particular anticoagulants, peripheral blood derived from 10 volunteers was used (each donor's blood was taken into 3 vacuum tubes with EDTA, heparin and sodium citrate anticoagulant agents). Next to that, we obtained 10 buffy coat samples in transfusion blood bags with CPDA anticoagulant agent. Compared to blood cells influenced by one of the three anticoagulant agents present in vacuum tubes, cells from transfusion bags affected...

Efeito do laser de Diodo de 808nm como coadjuvante ao tratamento periodontal na redução de periodontopatógenos / The effect of Diode laser 808nm associated in periodontal treatment in the reduction of periodontalpathogens

Yuen, Marcio Seto Yu

02 September 2009

O objetivo do estudo foi avaliar, o efeito do laser de Diodo 808nm como coadjuvante ao tratamento periodontal na redução de periodontopatógenos Porphyromonas gingivalis, Treponema denticola e Tannerella forsythia pela técnica da Reação em Cadeia da Polimerase em Tempo Real. Foram selecionados vinte e quatro pacientes portadores de periodontite crônica neste estudo de boca dividida, duplo cego e randomizado. Dois sítios uniradiculares de cada paciente foram utilizados e divididos em dois grupos experimentais: TESTE - raspagem alisamento polimento corono radicular (RAPCR) associado à duas aplicações de laser de Diodo de alta potência (comprimento de onda de 808nm, 1,5 Watts, 597,1 W/cm2, durante 20 segundos no modo contínuo). A primeira aplicação foi realizada 24 horas após RAPCR e a segunda após sete dias; CONTROLE foi realizado o mesmo procedimento porém sem a aplicação do laser. O biofilme subgengival foi coletado antes do tratamento e seis semanas após a segunda aplicação do laser. A avaliação microbiológica foi feita através da Reação em Cadeia da Polimerase em tempo real para a quantificação de Porphyromonas gingivalis, Treponema denticola e Tannerella forsythia. A comparação entre os grupos não demonstram diferenças estatisticamente significantes (p<0,05). Concluiu-se que, dentro dos limites deste estudo, a aplicação do laser de Diodo de 808nm como coadjuvante ao tratamento periodontal não reduziu de forma significativa os periodontopatógenos: Porphyromonas gingivalis, Treponema denticola e Tannerella forsythia quando comparado à RAPCR. / The aim of this study was to evaluate, by real-time polymerase chain reaction, the effect of Diode laser 808nm as an adjuvant in the reduction of Porphyromonas gingivalis, Treponema denticola and Tannerella forsythia in to periodontal treatment. Twenty-four patients with chronic periodontitis the study designs was split-mouth, double blind and ramdomized controlled trial. Two sites from uniradicular teeth of each patient were used and divided in two experimental groups: TEST scalling and root planing (SRP) associated with two high power Diode laser application (wavelength of 808nm, 1,5W at the display (597,1 W/cm2) for 20 seconds in the continuous-wave mode) the first laser application was 24 hours after SRP and the second seven days later; CONTROL a similar procedure without laser application. The subgingival biofilm was colleted before treatment and six weeks after the second laser application. The microbiologic evaluation was done by real-time polymerase chain reaction for the quantification of Porphyromonas gingivalis, Treponema denticola and Tannerella forsythia. The comparison between the groups did not show significant differences (p<0,05). Within the limits of this study, it can be concluded that Diode laser 808nm application as an adjuvant in the periodontal treatment did not reduce the periodontal pathogens Porphyromonas gingivalis, Treponema denticola e Tannerella forsythia when compared by scaling root planning.

Chronic periodontitis

Diode laser

Laser de Diodo

PCR em tempo real

Periodontite crônica

Periodontopathogens

Periodontopatógenos

Real time PCR

Taqman

Taqman