58 research outputs found
QuantPrime â a flexible tool for reliable high-throughput primer design for quantitative PCR
<p>Abstract</p> <p>Background</p> <p>Medium- to large-scale expression profiling using quantitative polymerase chain reaction (qPCR) assays are becoming increasingly important in genomics research. A major bottleneck in experiment preparation is the design of specific primer pairs, where researchers have to make several informed choices, often outside their area of expertise. Using currently available primer design tools, several interactive decisions have to be made, resulting in lengthy design processes with varying qualities of the assays.</p> <p>Results</p> <p>Here we present QuantPrime, an intuitive and user-friendly, fully automated tool for primer pair design in small- to large-scale qPCR analyses. QuantPrime can be used online through the internet <url>http://www.quantprime.de/</url> or on a local computer after download; it offers design and specificity checking with highly customizable parameters and is ready to use with many publicly available transcriptomes of important higher eukaryotic model organisms and plant crops (currently 295 species in total), while benefiting from exon-intron border and alternative splice variant information in available genome annotations. Experimental results with the model plant <it>Arabidopsis thaliana</it>, the crop <it>Hordeum vulgare </it>and the model green alga <it>Chlamydomonas reinhardtii </it>show success rates of designed primer pairs exceeding 96%.</p> <p>Conclusion</p> <p>QuantPrime constitutes a flexible, fully automated web application for reliable primer design for use in larger qPCR experiments, as proven by experimental data. The flexible framework is also open for simple use in other quantification applications, such as hydrolyzation probe design for qPCR and oligonucleotide probe design for quantitative <it>in situ </it>hybridization. Future suggestions made by users can be easily implemented, thus allowing QuantPrime to be developed into a broad-range platform for the design of RNA expression assays.</p
Species Identification in Malaise Trap Samples by DNA Barcoding Based on NGS Technologies and a Scoring Matrix
The German Barcoding initiatives BFB and GBOL have generated a reference library of more than 16,000 metazoan species, which is now ready for applications concerning next generation molecular biodiversity assessments. To streamline the barcoding process, we have developed a meta-barcoding pipeline: We pre-sorted a single malaise trap sample (obtained during one week in August 2014, southern Germany) into 12 arthropod orders and extracted DNA from pooled individuals of each order separately, in order to facilitate DNA extraction and avoid time consuming single specimen selection. Aliquots of each ordinal-level DNA extract were combined to roughly simulate a DNA extract from a non-sorted malaise sample. Each DNA extract was amplified using four primer sets targeting the CO1-5' fragment. The resulting PCR products (150-400bp) were sequenced separately on an Illumina Mi-SEQ platform, resulting in 1.5 million sequences and 5,500 clusters (coverage >10;CD-HIT-EST, 98%). Using a total of 120,000 DNA barcodes of identified, Central European Hymenoptera, Coleoptera, Diptera, and Lepidoptera downloaded from BOLD we established a reference sequence database for a local CUSTOM BLAST. This allowed us to identify 529 Barcode Index Numbers (BINs) from our sequence clusters derived from pooled Malaise trap samples. We introduce a scoring matrix based on the sequence match percentages of each amplicon in order to gain plausibility for each detected BIN, leading to 390 high score BINs in the sorted samples;whereas 268 of these high score BINs (69%) could be identified in the combined sample. The results indicate that a time consuming pre-sorting process will yield approximately 30% more high score BINs compared to the nonsorted sample in our case. These promising results indicate that a fast, efficient and reliable analysis of next generation data from malaise trap samples can be achieved using this pipeline
Construction and evaluation of a whole genome microarray of Chlamydomonas reinhardtii
Toepel J, Albaum S, Arvidsson S, et al. Construction and evaluation of a whole genome microarray of Chlamydomonas reinhardtii. BMC Genomics. 2011;12(1): 579.ABSTRACT: BACKGROUND: Chlamydomonas reinhardtii is widely accepted as a model organism regarding photosynthesis, circadian rhythm, cell mobility, phototaxis, and biotechnology. The complete annotation of the genome allows transcriptomic studies, however a new microarray platform was needed. Based on the completed annotation of Chlamydomonas reinhardtii a new microarray on an Agilent platform was designed using an extended JGI 3.1 genome data set which included 15000 transcript models. RESULTS: In total 44000 probes were determined (3 independent probes per transcript model) covering 93% of the transcriptome. Alignment studies with the recently published AUGUSTUS 10.2 annotation confirmed 11000 transcript models resulting in a very good coverage of 70% of the transcriptome (17000). Following the estimation of 10000 predicted genes in Chlamydomonas reinhardtii our new microarray, nevertheless, covers the expected genome by 90-95%. CONCLUSIONS: To demonstrate the capabilities of the new microarray, we analyzed transcript levels for cultures grown under nitrogen as well as sulfate limitation, and compared the results with recently published microarray and RNA-seq data. We could thereby confirm previous results derived from data on nutrient-starvation induced gene expression of a group of genes related to protein transport and adaptation of the metabolism as well as genes related to efficient light harvesting, light energy distribution and photosynthetic electron transport
Efficacy of dust binding agents : a laboratory study
I arbetet har kalciumklorid respektive magnesiumklorid utvÀrderats i kombination med fyra olika finmaterial (granit, amfibolit, metagrÄvacka samt naturlig silt) vilka anvÀnds vid underhÄll av grusvÀgar. Vattenlösningar av respektive salt har tillförts finmaterialet varefter regn och upptorkning har simulerats i laboratoriemiljö. UtvÀrdering har gjorts med avseende pÄ mÀngden kvarvarande salt efter regnsimulering samt svepelektronmikroskopi (SEM) och optisk mikroskopi pÄ finmaterialet efter upptorkning. Det har varit svÄrt att dra nÄgra slutsatser. Den framtagna försöksmetodiken har inte kunnat pÄvisa agglomerering i finfraktion av grusslitlager eller ge ledning till doseringsrÄd. Man kan se att kalciumklorid Àr effektivare per giva Àn magnesiumklorid. Det krÀvs mindre mÀngd salt (flingor) för att binda en viss mÀngd vatten med kalciumklorid Àn med magnesiumklorid vilket dock Àr kÀnt sedan tidigare. Agglomerering kunde inte bevisas med upprepade försök. Kemiskt var det ingen större skillnad, salterna betedde sig snarlikt och enligt tidigare kÀnt beteende. Skillnader av beteende beroende pÄ typ av bergmaterial var försumbart i förhÄllande till salternas inverkan. Den allra största delen (som minst 80 %) av tillfört salt har lakats ur efter regnsimulering. Ingen skillnad mellan kalcium- och magnesiumklorid eller de olika finmaterialen kunde konstateras avseende urlakning. En liten skillnad mellan urlakning av katjoner och anjoner kunde konstateras dÀr katjonerna hölls kvar i finmaterialet. Detta kan röra sig om en jonbytareffekt. Analys med SEM och optisk mikroskopi kunde inte pÄvisa nÄgra egentliga skillnader mellan de olika kombinationerna av salt respektive finmaterial. Vid upptorkning av finmaterialet kunde konstateras att kalciumklorid, rÀknat som handelsvara, kan absorbera mer vatten Àn magnesiumklorid. Denna effekt kvarstod Àven efter att regnsimulering har utförts. Den metod som utvecklades i samband med arbetet gav inga pÄvisbara skillnader, som inte var kÀnda sedan tidigare, mellan de olika salterna och finmaterialen. Troligen har systemet förenklats sÄ lÄngt att relevanta parametrar tagits bort eller inte reflekterar verkliga fÀltförhÄllanden.  In this study, calcium chloride and magnesium chloride have been evaluated in combination with four different fine materials (granite, amphibolite, meta greywacke and naturally occurring silt), which are used for gravel road maintenance. Aqueous solutions of the two salts have been added to the fine material where after rain and drying has been simulated under laboratory conditions. Evaluation has been performed in terms of residual amount of salt after rain simulation, and SEM and optical microscopy on the fine material after drying, respectively It has been difficult to draw any conclusions that would yield new information from the tests. The methodology developed was not able to show agglomeration in the fine fraction of the gravel road material and it was not possible to provide recommendations regarding the dosage of dust binding agents. The tests show that calcium chloride is more efficient in retaining moisture than magnesium chloride when the comparison is based on the amount of flakes used. Agglomeration could not be proven despite several repeated tests. The chemical properties did not differ significantly, the salts behaved similarly and according to earlier known data. Differences in the origin of rock material was negligible compared with the effects of the salts. The added salt was for the most part (with a minimum of 80%) leached out during the rain simulation. No differences between calcium chloride and magnesium chloride or between the different fine materials were observed in terms of leaching. A small difference between leaching of cations and anions was recorded where the cations were retained in the fine material. This might be an ion-exchange effect. Analysis with SEM and optical microscopy did not yield any significant differences between the different combinations of salt and fine materials, respectively. During drying of the fine material it was observed that calcium chloride, calculated as commercial product, could absorb more water than magnesium chloride. This effect persisted also after the rain simulation. The experimental method that was developed during the study did not give any, previously not known, differences between the different salts and fine materials. Probably the system has been simplified to such an extent that relevant parameters were removed or do not reflect real field conditions
Efficacy of dust binding agents : a laboratory study
I arbetet har kalciumklorid respektive magnesiumklorid utvÀrderats i kombination med fyra olika finmaterial (granit, amfibolit, metagrÄvacka samt naturlig silt) vilka anvÀnds vid underhÄll av grusvÀgar. Vattenlösningar av respektive salt har tillförts finmaterialet varefter regn och upptorkning har simulerats i laboratoriemiljö. UtvÀrdering har gjorts med avseende pÄ mÀngden kvarvarande salt efter regnsimulering samt svepelektronmikroskopi (SEM) och optisk mikroskopi pÄ finmaterialet efter upptorkning. Det har varit svÄrt att dra nÄgra slutsatser. Den framtagna försöksmetodiken har inte kunnat pÄvisa agglomerering i finfraktion av grusslitlager eller ge ledning till doseringsrÄd. Man kan se att kalciumklorid Àr effektivare per giva Àn magnesiumklorid. Det krÀvs mindre mÀngd salt (flingor) för att binda en viss mÀngd vatten med kalciumklorid Àn med magnesiumklorid vilket dock Àr kÀnt sedan tidigare. Agglomerering kunde inte bevisas med upprepade försök. Kemiskt var det ingen större skillnad, salterna betedde sig snarlikt och enligt tidigare kÀnt beteende. Skillnader av beteende beroende pÄ typ av bergmaterial var försumbart i förhÄllande till salternas inverkan. Den allra största delen (som minst 80 %) av tillfört salt har lakats ur efter regnsimulering. Ingen skillnad mellan kalcium- och magnesiumklorid eller de olika finmaterialen kunde konstateras avseende urlakning. En liten skillnad mellan urlakning av katjoner och anjoner kunde konstateras dÀr katjonerna hölls kvar i finmaterialet. Detta kan röra sig om en jonbytareffekt. Analys med SEM och optisk mikroskopi kunde inte pÄvisa nÄgra egentliga skillnader mellan de olika kombinationerna av salt respektive finmaterial. Vid upptorkning av finmaterialet kunde konstateras att kalciumklorid, rÀknat som handelsvara, kan absorbera mer vatten Àn magnesiumklorid. Denna effekt kvarstod Àven efter att regnsimulering har utförts. Den metod som utvecklades i samband med arbetet gav inga pÄvisbara skillnader, som inte var kÀnda sedan tidigare, mellan de olika salterna och finmaterialen. Troligen har systemet förenklats sÄ lÄngt att relevanta parametrar tagits bort eller inte reflekterar verkliga fÀltförhÄllanden.  In this study, calcium chloride and magnesium chloride have been evaluated in combination with four different fine materials (granite, amphibolite, meta greywacke and naturally occurring silt), which are used for gravel road maintenance. Aqueous solutions of the two salts have been added to the fine material where after rain and drying has been simulated under laboratory conditions. Evaluation has been performed in terms of residual amount of salt after rain simulation, and SEM and optical microscopy on the fine material after drying, respectively It has been difficult to draw any conclusions that would yield new information from the tests. The methodology developed was not able to show agglomeration in the fine fraction of the gravel road material and it was not possible to provide recommendations regarding the dosage of dust binding agents. The tests show that calcium chloride is more efficient in retaining moisture than magnesium chloride when the comparison is based on the amount of flakes used. Agglomeration could not be proven despite several repeated tests. The chemical properties did not differ significantly, the salts behaved similarly and according to earlier known data. Differences in the origin of rock material was negligible compared with the effects of the salts. The added salt was for the most part (with a minimum of 80%) leached out during the rain simulation. No differences between calcium chloride and magnesium chloride or between the different fine materials were observed in terms of leaching. A small difference between leaching of cations and anions was recorded where the cations were retained in the fine material. This might be an ion-exchange effect. Analysis with SEM and optical microscopy did not yield any significant differences between the different combinations of salt and fine materials, respectively. During drying of the fine material it was observed that calcium chloride, calculated as commercial product, could absorb more water than magnesium chloride. This effect persisted also after the rain simulation. The experimental method that was developed during the study did not give any, previously not known, differences between the different salts and fine materials. Probably the system has been simplified to such an extent that relevant parameters were removed or do not reflect real field conditions.On the Roa
MolekylÀr klassificering av tjocktarmscancer : PAM-klusteranalys för identifiering av undergrupper
The main objective of this study is to divide a number of colorectal cancer cases into subgroups based on their molecular features using cluster analysis. The data used is supplied by a research group at Pathology, the Department of Medical Biosciences, UmeĂ„ University, and consists, after some preparation, of 455 observations which is a larger data set than many similar studies. The molecular variables that the clustering is based on are CIMP (CpG Island Methylator Phenotype), MSI (Micro Satellite Instability), BRAF- and KRAS-mutations. These are categorical variables and consequently the clustering method used is PAM (Partitioning Around Medoids) which is particularly useful with data on diverse variable level. The final analysis results in four subgroups that are represented by different combinations of attributes on the aforementioned variables. The disparity between the clusters are then evaluated by, for instance, comparing the survival time for their pertaining patients and it appears that two of the clusters are significantly different in this aspect. Other patient related and tumor specific characteristics are also linked with the separate cancer types and tested if they occur in varying extent. The locations of the tumors in the colon are for instance significantly different between the groups. Cluster analyses are exploratory tools so the choice of useful variables and subsequent interpretation of the results can be complicated and require relevant subject knowledge.Huvudsyftet med denna studie Ă€r att med hjĂ€lp av klusteranalys dela in en mĂ€ngd tjocktarmscancerfall i undergrupper baserat pĂ„ deras molekylĂ€ra egenskaper. Materialet som anvĂ€nds tillhandahĂ„lls av en forskningsgrupp vid Patologi, Institutionen för medicinsk biovetenskap, UmeĂ„ universitet, och bestĂ„r efter viss bearbetning av 455 observationer vilket Ă€r en större datamĂ€ngd Ă€n flera liknande studier. De molekylĂ€ra variabler som ligger till grund för klusterindelningen Ă€r nivĂ„n pĂ„ CIMP (CpG Island Methylator Phenotype), MSI (Mikrosatellitinstabillitet), BRAF- och KRAS-mutationer. Dessa Ă€r kategoriska variabler och dĂ€rför anvĂ€nds PAM (Partitioning Around Medoids) som Ă€r en sĂ€rskild klusterteknik lĂ€mpad vid data pĂ„ varierade variabelnivĂ„er. I det slutliga resultatet fĂ„s fyra undergrupper som representeras av olika kombinationer av utfallen pĂ„ ovannĂ€mnda variabler. Klustren utvĂ€rderas bland annat genom att jĂ€mföra överlevnadstiden för varje kluster, och det visar sig att tvĂ„ av klustren skiljer sig signifikant Ă„t i detta avseende. Ăven andra patientrelaterade och tumörspecifika egenskaper kopplas samman till de olika cancertyperna och testas om de förekommer i varierande utstrĂ€ckning. Var nĂ„gonstans tumören Ă€r placerad Ă€r till exempel signifikant skilt mellan grupperna. Klusteranalyser Ă€r explorativa redskap sĂ„ valet av variabler och sedermera tolkningar av resultat kan vara komplicerade och krĂ€va stor sakkunskap
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