Your search keyword '"Stangegaard M"' showing total 21 results

1. Autosomal SNP typing of forensic samples with the GenPlex™ HID System: Results of a collaborative study

Author

Tomas, C., Axler-DiPerte, G., Budimlija, Z.M., Børsting, C., Coble, M.D., Decker, A.E., Eisenberg, A., Fang, R., Fondevila, M., Frisk Fredslund, S., Gonzalez, S., Hansen, A.J., Hoff-Olsen, P., Haas, C., Kohler, P., Kriegel, A.K., Lindblom, B., Manohar, F., Maroñas, O., Mogensen, H.S., Neureuther, K., Nilsson, H., Scheible, M.K., Schneider, P.M., Sonntag, M.L., Stangegaard, M., Syndercombe-Court, D., Thacker, C.R., Vallone, P.M., Westen, A.A., and Morling, N.

Published

2011

2. Laboratory Automation and LIMS in Forensics

Author

Stangegaard, M., primary, Hansen, A.J., additional, and Morling, N., additional

Published

2013

3. Purification and concentration of PCR products leads to increased signal intensities with fewer allelic drop-outs and artifacts

Author

Pedersen, L.M.I., Stangegaard, M., Mogensen, H.S., and Morling, N.

Published

2011

4. SNP typing of forensic samples with the GenPlex™ HID system: A collaborative study

Author

Tomas, C., Bastisch, I., Børsting, C., Carracedo, A., Coble, M.D., Eisenberg, A., Fang, R., Frisk Fredslund, S., Haas, C., Hansen, A.J., Hoff-Olsen, P., Lindblom, B., Mogensen, H.S., Prinz, M., Stangegaard, M., Vallone, P.M., Westen, A.A., and Morling, N.

Published

2009

5. Autosomal SNP typing of forensic samples with the GenPlex (TM) HID System: Results of a collaborative study

Author

Tomas, C., Axler-DiPerte, G., Budimlija, Z. M., Borsting, C., Coble, M. D., Decker, A. E., Eisenberg, A., Fang, R., Fondevila, M., Fredslund, S. Frisk, Gonzalez, S., Hansen, A. J., Hoff-Olsen, P., Haas, C., Kohler, P., Kriegel, A. K., Lindblom, B., Manohar, F., Maronas, O., Mogensen, H. S., Neureuther, K., Nilsson, H., Scheible, M. K., Schneider, P. M., Sonntag, M. L., Stangegaard, M., Syndercombe-Court, D., Thacker, C. R., Vallone, P. M., Westen, A. A., Morling, N., Tomas, C., Axler-DiPerte, G., Budimlija, Z. M., Borsting, C., Coble, M. D., Decker, A. E., Eisenberg, A., Fang, R., Fondevila, M., Fredslund, S. Frisk, Gonzalez, S., Hansen, A. J., Hoff-Olsen, P., Haas, C., Kohler, P., Kriegel, A. K., Lindblom, B., Manohar, F., Maronas, O., Mogensen, H. S., Neureuther, K., Nilsson, H., Scheible, M. K., Schneider, P. M., Sonntag, M. L., Stangegaard, M., Syndercombe-Court, D., Thacker, C. R., Vallone, P. M., Westen, A. A., and Morling, N.

Abstract

The GenPlex (TM) HID System (Applied Biosystems - AB) offers typing of 48 of the 52 SNPforID SNPs and amelogenin. Previous studies have shown a high reproducibility of the GenPlex (TM) HID System using 250500 pg DNA of good quality. An international exercise was performed by 14 laboratories (9 in Europe and 5 in the US) in order to test the robustness and reliability of the GenPlex (TM) HID System on forensic samples. Three samples with partly degraded DNA and 10 samples with low amounts of DNA were analyzed in duplicates using various amounts of DNA. In order to compare the performance of the GenPlex (TM) HID System with the most commonly used STR kits, 500 pg of partly degraded DNA from three samples was typed by the laboratories using one or more STR kits. The median SNP typing success rate was 92.3% with 500 pg of partly degraded DNA. Three of the fourteen laboratories counted for more than two thirds of the locus dropouts. The median percentage of discrepant results was 0.2% with 500 pg degraded DNA. An increasing percentage of locus dropouts and discrepant results were observed when lower amounts of DNA were used. Different success rates were observed for the various SNPs. The rs763869 SNP was the least successful. With the exception of the MiniFiler (TM) kit (AB), GenPlex (TM) HID performed better than five other tested STR kits. When partly degraded DNA was analyzed, GenPlex (TM) HID showed a very low mean mach probability, while all STR kits except MiniFiler (TM) had very limited discriminatory power. (C) 2010 Elsevier Ireland Ltd. All rights reserved.

Published

2011

6. Autosomal SNP typing of forensic samples with the GenPlex (TM) HID System: Results of a collaborative study

Author

Tomas, C, Axler-DiPerte, G, Budimlija, Z M, Borsting, C, Coble, M D, Decker, A E, Eisenberg, A, Fang, R, Fondevila, M, Frisk Fredslund, S, Gonzalez, S, Hansen, A J, Hoff-Olsen, P, Haas, C, Kohler, P, Kriegel, A K, Lindblom, Bertil, Manohar, F, Maronas, O, Mogensen, H S, Neureuther, K, Nilsson, H, Scheible, M K, Schneider, P M, Sonntag, M L, Stangegaard, M, Syndercombe-Court, D, Thacker, C R, Vallone, P M, Westen, A A, Morling, N, Tomas, C, Axler-DiPerte, G, Budimlija, Z M, Borsting, C, Coble, M D, Decker, A E, Eisenberg, A, Fang, R, Fondevila, M, Frisk Fredslund, S, Gonzalez, S, Hansen, A J, Hoff-Olsen, P, Haas, C, Kohler, P, Kriegel, A K, Lindblom, Bertil, Manohar, F, Maronas, O, Mogensen, H S, Neureuther, K, Nilsson, H, Scheible, M K, Schneider, P M, Sonntag, M L, Stangegaard, M, Syndercombe-Court, D, Thacker, C R, Vallone, P M, Westen, A A, and Morling, N

Abstract

The GenPlex (TM) HID System (Applied Biosystems - AB) offers typing of 48 of the 52 SNPforID SNPs and amelogenin. Previous studies have shown a high reproducibility of the GenPlex (TM) HID System using 250500 pg DNA of good quality. An international exercise was performed by 14 laboratories (9 in Europe and 5 in the US) in order to test the robustness and reliability of the GenPlex (TM) HID System on forensic samples. Three samples with partly degraded DNA and 10 samples with low amounts of DNA were analyzed in duplicates using various amounts of DNA. In order to compare the performance of the GenPlex (TM) HID System with the most commonly used STR kits, 500 pg of partly degraded DNA from three samples was typed by the laboratories using one or more STR kits. The median SNP typing success rate was 92.3% with 500 pg of partly degraded DNA. Three of the fourteen laboratories counted for more than two thirds of the locus dropouts. The median percentage of discrepant results was 0.2% with 500 pg degraded DNA. An increasing percentage of locus dropouts and discrepant results were observed when lower amounts of DNA were used. Different success rates were observed for the various SNPs. The rs763869 SNP was the least successful. With the exception of the MiniFiler (TM) kit (AB), GenPlex (TM) HID performed better than five other tested STR kits. When partly degraded DNA was analyzed, GenPlex (TM) HID showed a very low mean mach probability, while all STR kits except MiniFiler (TM) had very limited discriminatory power., Funding Agencies|Ellen and Aage Andersens Foundation

Published

2011

7. Innovation brief. Biomek-3000 and GenPlex SNP genotyping in forensic genetics.

Author

Stangegaard M, Tomas C, Hansen AJ, Frank-Hansen R, Børsting C, and Morling N

Abstract

Single nucleotide polymorphism genotyping provides a supplement for conventional short tandem repeats-based kits currently used for human identification. GenPlex (Applied Biosystems (AB), Foster City, CA) is an SNP-genotyping kit based on a multiplex of 48 informative, autosomal SNPs from the SNPforID Consortium. Our objective was to setup, implement, and validate a small and affordable automated liquid-handling robot for forensic casework samples (buccal swaps on FTA-paper and Qiagen purified blood). The reaction scheme consisted of numerous steps and was cumbersome to perform consistently manually. Automation was accomplished with a Biomek-3000 (Beckmann Coulter) laboratory-automated workstation using five in-house-developed methods. All methods allowed the user to select the number of subsequent injections to the capillary electrophoresis instrument (ABI 3130xl, AB) enabling processing of both partial and full plates. A total of 286 samples were analyzed in duplicates with the GenPlex reaction using the Biomek-3000. The results were compared with those obtained from the same samples using the SNaPshot(AB) single-base extension system. Full concordance of the results was obtained in all but one sample. The results demonstrate that the Biomek-3000 can perform a series of complex reactions leading to highly consistent forensic genetic SNP-typing results. [ABSTRACT FROM AUTHOR]

Published

2008

8. Evaluation of four automated protocols for extraction of DNA from FTA cards.

Author

Stangegaard M, Børsting C, Ferrero-Miliani L, Frank-Hansen R, Poulsen L, Hansen AJ, and Morling N

Subjects

Blood, DNA blood, Epithelial Cells, Forensic Medicine methods, Humans, Molecular Diagnostic Techniques methods, Automation, Laboratory methods, DNA isolation & purification, Specimen Handling methods

Abstract

Extraction of DNA using magnetic bead-based techniques on automated DNA extraction instruments provides a fast, reliable, and reproducible method for DNA extraction from various matrices. Here, we have compared the yield and quality of DNA extracted from FTA cards using four automated extraction protocols on three different instruments. The extraction processes were repeated up to six times with the same pieces of FTA cards. The sample material on the FTA cards was either blood or buccal cells. With the QIAamp DNA Investigator and QIAsymphony DNA Investigator kits, it was possible to extract DNA from the FTA cards in all six rounds of extractions in sufficient amount and quality to obtain complete short tandem repeat (STR) profiles on a QIAcube and a QIAsymphony SP. With the PrepFiler Express kit, almost all the extractable DNA was extracted in the first two rounds of extractions. Furthermore, we demonstrated that it was possible to successfully extract sufficient DNA for STR profiling from previously processed FTA card pieces that had been stored at 4 °C for up to 1 year. This showed that rare or precious FTA card samples may be saved for future analyses even though some DNA was already extracted from the FTA cards.

Published

2013

9. Automated extraction of DNA from biological stains on fabric from crime cases. A comparison of a manual and three automated methods.

Author

Stangegaard M, Hjort BB, Hansen TN, Hoflund A, Mogensen HS, Hansen AJ, and Morling N

Subjects

Electrophoresis, Capillary, Humans, Microsatellite Repeats genetics, Polymerase Chain Reaction, Automation, Crime, DNA isolation & purification, Forensic Genetics

Abstract

The presence of PCR inhibitors in extracted DNA may interfere with the subsequent quantification and short tandem repeat (STR) reactions used in forensic genetic DNA typing. DNA extraction from fabric for forensic genetic purposes may be challenging due to the occasional presence of PCR inhibitors that may be co-extracted with the DNA. Using 120 forensic trace evidence samples consisting of various types of fabric, we compared three automated DNA extraction methods based on magnetic beads (PrepFiler Express Forensic DNA Extraction Kit on an AutoMate Express, QIAsyphony DNA Investigator kit either with the sample pre-treatment recommended by Qiagen or an in-house optimized sample pre-treatment on a QIAsymphony SP) and one manual method (Chelex) with the aim of reducing the amount of PCR inhibitors in the DNA extracts and increasing the proportion of reportable STR-profiles. A total of 480 samples were processed. The highest DNA recovery was obtained with the PrepFiler Express kit on an AutoMate Express while the lowest DNA recovery was obtained using a QIAsymphony SP with the sample pre-treatment recommended by Qiagen. Extraction using a QIAsymphony SP with the sample pre-treatment recommended by Qiagen resulted in the lowest percentage of PCR inhibition (0%) while extraction using manual Chelex resulted in the highest percentage of PCR inhibition (51%). The largest number of reportable STR-profiles was obtained with DNA from samples extracted with the PrepFiler Express kit (75%) while the lowest number was obtained with DNA from samples extracted using a QIAsymphony SP with the sample pre-treatment recommended by Qiagen (41%)., (Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.)

Published

2013

10. Biomek 3000: the workhorse in an automated accredited forensic genetic laboratory.

Author

Stangegaard M, Meijer PJ, Børsting C, Hansen AJ, and Morling N

Subjects

Electrophoresis, Capillary methods, Humans, Polymerase Chain Reaction methods, Specimen Handling methods, Automation, Laboratory methods, Forensic Genetics methods

Abstract

We have implemented and validated automated protocols for a wide range of processes such as sample preparation, PCR setup, and capillary electrophoresis setup using small, simple, and inexpensive automated liquid handlers. The flexibility and ease of programming enable the Biomek 3000 to be used in many parts of the laboratory process in a modern forensic genetics laboratory with low to medium sample throughput. In conclusion, we demonstrated that sample processing for accredited forensic genetic DNA typing can be implemented on small automated liquid handlers, leading to the reduction of manual work as well as increased quality and throughput.

Published

2012

11. A simple method for validation and verification of pipettes mounted on automated liquid handlers.

Author

Stangegaard M, Hansen AJ, Frøslev TG, and Morling N

Subjects

Automation, Laboratory economics, Calibration standards, Clinical Laboratory Techniques economics, Equipment and Supplies standards, Automation, Laboratory methods, Clinical Laboratory Techniques instrumentation, Clinical Laboratory Techniques standards

Abstract

We have implemented a simple, inexpensive, and fast procedure for validation and verification of the performance of pipettes mounted on automated liquid handlers (ALHs) as necessary for laboratories accredited under ISO 17025. A six- or seven-step serial dilution of OrangeG was prepared in quadruplicates in a flat-bottom 96-well microtiter plate, manually using calibrated pipettes. Each pipette of the liquid handler (1-8) dispensed a selected volume (1-200 μL) of OrangeG eight times into the wells of the microtiter plate. All wells contained a total of 200 μL liquid. The absorbance was read, and the dispensed volume of each pipette was calculated based on a plot of volume and absorbance of a known set of OrangeG dilutions. Finally, the percent inaccuracy (%d) and the imprecision (%CV) of each pipette were calculated. Using predefined acceptance criteria, each pipette was then either approved or failed. Failed pipettes were either repaired or the volume deviation was compensated for by applying a calibration curve in the liquid-handler software. We have implemented the procedure on a Sias Xantus, an MWGt TheONYX, four Tecan Freedom EVO, a Biomek NX Span-8, and four Biomek 3000 robots, and the methods are freely available. In conclusion, we have set up a simple, inexpensive, and fast solution for the continuous validation of ALHs used for accredited work according to the ISO 17025 standard. The method is easy to use for aqueous solutions but requires a spectrophotometer that can read microtiter plates., (Copyright © 2011 Society for Laboratory Automation and Screening. Published by Elsevier Inc. All rights reserved.)

Published

2011

12. Automated extraction of DNA from blood and PCR setup using a Tecan Freedom EVO liquid handler for forensic genetic STR typing of reference samples.

Author

Stangegaard M, Frøslev TG, Frank-Hansen R, Hansen AJ, and Morling N

Subjects

Automation methods, DNA Fingerprinting methods, Humans, Blood, DNA isolation & purification, Forensic Genetics methods, Polymerase Chain Reaction methods, Specimen Handling methods

Abstract

We have implemented and validated automated protocols for DNA extraction and PCR setup using a Tecan Freedom EVO liquid handler mounted with the Te-MagS magnetic separation device (Tecan, Männedorf, Switzerland). The protocols were validated for accredited forensic genetic work according to ISO 17025 using the Qiagen MagAttract DNA Mini M48 kit (Qiagen GmbH, Hilden, Germany) from fresh whole blood and blood from deceased individuals. The workflow was simplified by returning the DNA extracts to the original tubes minimizing the risk of misplacing samples. The tubes that originally contained the samples were washed with MilliQ water before the return of the DNA extracts. The PCR was setup in 96-well microtiter plates. The methods were validated for the kits: AmpFℓSTR Identifiler, SGM Plus and Yfiler (Applied Biosystems, Foster City, CA), GenePrint FFFL and PowerPlex Y (Promega, Madison, WI). The automated protocols allowed for extraction and addition of PCR master mix of 96 samples within 3.5h. In conclusion, we demonstrated that (1) DNA extraction with magnetic beads and (2) PCR setup for accredited, forensic genetic short tandem repeat typing can be implemented on a simple automated liquid handler leading to the reduction of manual work, and increased quality and throughput., (Copyright © 2011 Society for Laboratory Automation and Screening. Published by Elsevier Inc. All rights reserved.)

Published

2011

13. Comment on "Microfluidics meets cell biology: bridging the gap by validation and application of microscale techniques for cell biological assays".

Author

Dufva M and Stangegaard M

Subjects

Cells, Cultured, Reproducibility of Results, Biological Assay methods, Microfluidics methods

Published

2009

14. Gene expression analysis using agilent DNA microarrays.

Author

Stangegaard M

Subjects

Humans, Gene Expression Profiling methods, Oligonucleotide Array Sequence Analysis methods

Abstract

Hybridization of labeled cDNA to microarrays is an intuitively simple and a vastly underestimated process. If it is not performed, optimized, and standardized with the same attention to detail as e.g., RNA amplification, information may be overlooked or even lost. Careful balancing of the amount of labeled cDNA added to each slide reduces dye-bias and slide to slide variation. Efficient mixing of the hybridization solution throughout the hybridization reaction increases signals several fold. The amount of near perfect target-probe hybrids may be reduced by efficient stringency washes of the hybridized microarray slides.

Published

2009

15. RNA preparation and characterization for gene expression studies.

Author

Stangegaard M

Subjects

Humans, Polymerase Chain Reaction, Reverse Transcription genetics, Staining and Labeling, Gene Expression Profiling methods, RNA isolation & purification

Abstract

Much information can be obtained from knowledge of the relative expression level of each gene in the transcriptome. With the current advances in technology as little as a single cell is required as starting material for gene expression experiments. The mRNA from a single cell may be linearly amplified to an excess of 10(6)-fold. Reverse transcription and fluorescent labeling of the amplified RNA yields a stable target for subsequent hybridization to DNA microarrays.

Published

2009

16. Typing of 48 autosomal SNPs and amelogenin with GenPlex SNP genotyping system in forensic genetics.

Author

Tomas C, Stangegaard M, Børsting C, Hansen AJ, and Morling N

Subjects

Black People genetics, DNA blood, DNA genetics, Genotype, Humans, Oligodeoxyribonucleotides chemistry, Oligodeoxyribonucleotides genetics, Polymerase Chain Reaction, Sensitivity and Specificity, White People genetics, Amelogenin genetics, Forensic Genetics methods, Polymorphism, Single Nucleotide genetics

Abstract

GenPlex (Applied Biosystems) is a new SNP genotyping system based on an initial PCR amplification followed by an oligo ligation assay (OLA). The OLA consists of the hybridization of allele and locus specific oligonucleotides (ASOs and LSOs) to PCR products and posterior ligation of ASOs and LSOs. The ligation products are immobilized to microtitre plates and reporter oligonucleotides (ZipChute probes) are hybridized to the ligation products. ZipChute probes are subsequently eluted and detected using capillary electrophoresis. Applied Biosystems developed the GenPlex SNP genotyping system with amelogenin and 48 of the 52 SNPs used in the 52 SNP-plex assay developed by the SNPforID consortium. The system requires equipment that is usually found in forensic genetic laboratories. The use of a robot for performance of the pipetting steps is highly recommendable. A total of 286 individuals from Denmark, Somalia and Greenland were investigated with GenPlex using a Biomek 3000 (Beckman Coulter) robot. The results were compared to results obtained with an ISO 17025 accredited SNP typing assay based on single base extension (SBE). With the GenPlex SNP genotyping system, full SNP profiles were obtained in 97.6% of the investigations. Perfect concordance was obtained in duplicate investigations and the SNP genotypes obtained with the GenPlex system were concordant with those of the accredited SBE based SNP typing system except for one result in rs901398 in one of 286 individuals most likely due to a mutation 6 bp downstream of the SNP. Reproducible SNP genotypes were obtained from as little as 250 pg of DNA.

Published

2008

17. Detection of mutations in the beta-globin gene by colorimetric staining of DNA microarrays visualized by a flatbed scanner.

Author

Petersen J, Stangegaard M, Birgens H, and Dufva M

Subjects

Chromatography, High Pressure Liquid, Colorimetry, Polymerase Chain Reaction, Globins genetics, Mutation, Oligonucleotide Array Sequence Analysis

Published

2007

18. Whole genome expression profiling using DNA microarray for determining biocompatibility of polymeric surfaces.

Author

Stangegaard M, Wang Z, Kutter JP, Dufva M, and Wolff A

Subjects

Cell Division drug effects, Cell Shape drug effects, Ethanolamine, HeLa Cells, Humans, Hydrophobic and Hydrophilic Interactions, Kinetics, Polymers chemistry, Surface Properties, Water chemistry, Biocompatible Materials chemistry, Biocompatible Materials pharmacology, Gene Expression Profiling methods, Gene Expression Regulation drug effects, Genome, Human genetics, Oligonucleotide Array Sequence Analysis methods, Polymers pharmacology

Abstract

There is an ever increasing need to find surfaces that are biocompatible for applications like medical implants and microfluidics-based cell culture systems. The biocompatibility of five different surfaces with different hydrophobicity was determined using gene expression profiling as well as more conventional methods to determine biocompatibility such as cellular growth rate, morphology and the hydrophobicity of the surfaces. HeLa cells grown on polymethylmethacrylate (PMMA) or a SU-8 surface treated with HNO3-ceric ammonium nitrate (HNO3-CAN) and ethanolamine showed no differences in growth rate, morphology or gene expression profiles as compared to HeLa cells grown in cell culture flasks. Cells grown on SU-8 treated with only HNO3-CAN showed almost the same growth rate (36 +/- 1 h) and similar morphology as cells grown in cell culture flasks (32 +/- 1 h), indicating good biocompatibility. However, more than 200 genes showed different expression levels in cells grown on SU-8 treated with HNO3-CAN compared to cells grown in cell culture flasks. This shows that gene expression profiling is a simple and precise method for determining differences in cells grown on different surfaces that are otherwise difficult to find using conventional methods. It is particularly noteworthy that no correlation was found between surface hydrophobicity and biocompatibility.

Published

2006

19. A biocompatible micro cell culture chamber (microCCC) for the culturing and on-line monitoring of eukaryote cells.

Author

Stangegaard M, Petronis S, Jørgensen AM, Christensen CB, and Dufva M

Subjects

Caco-2 Cells, Cell Survival physiology, Gene Expression Profiling, Gene Expression Regulation physiology, HeLa Cells, Humans, Reverse Transcriptase Polymerase Chain Reaction, Cell Culture Techniques, Microfluidic Analytical Techniques

Abstract

We have previously shown that a polymeric (PMMA) chip with medium perfusion and integrated heat regulation provides sufficiently precise heat regulation, pH-control and medium exchange to support cell growth for weeks. However, it was unclear how closely the cells cultured in the chip resembled cells cultured in the culture flask. In the current study, gene expression profiles of cells cultured in the chip were compared with gene expression profiles of cells cultured in culture flasks. The results showed that there were only two genes that were differently expressed in cells grown in the cell culture chip compared to cell culture flasks. The cell culture chip could without further modification support cell growth of two other cell lines. Light coming from the microscope lamp during optical recordings of the cells was the only external factor identified, that could have a negative effect on cell survival. Low grade light exposure was however compatible with optical recordings as well as cell viability. These results strongly indicate that a cell culture chip could be constructed that allowed for on-line optical recording of cellular events without affecting the cell culturing condition compared to cell cultured in culture flasks incubated in a dark and CO2 conditioned incubator.

Published

2006

20. Reverse transcription using random pentadecamer primers increases yield and quality of resulting cDNA.

Author

Stangegaard M, Dufva IH, and Dufva M

Subjects

HeLa Cells, Humans, Nucleic Acid Amplification Techniques, Nucleic Acid Hybridization, Oligonucleotide Array Sequence Analysis, RNA isolation & purification, RNA, Messenger analysis, RNA-Directed DNA Polymerase chemistry, Reverse Transcriptase Polymerase Chain Reaction, Sensitivity and Specificity, DNA Primers chemistry, DNA Primers metabolism, DNA, Complementary biosynthesis, Reverse Transcription

Abstract

Reverse transcription of RNA is an invaluable method for gene expression analysis by real-time PCR or microarray methods. Random primers of varying lengths were compared with respect to their efficiency of priming reverse transcription reactions. The results showed that 15-nucleotide-long random oligonucleotides (pentadecamers) consistently yielded at least 2-fold as much cDNA as did random hexamers using either poly(A) RNA or an amplified version of messenger RNA (aRNA) as a template. The cDNA generated using pentadecamers did not differ in size distribution or the amount of incorporated label compared with cDNA generated with random hexamers. The increased efficiency of priming using random pentadecamers resulted in reverse transcription of >80% of the template aRNA, while random hexamers induced reverse transcription of only 40% of the template aRNA. This suggests a better coverage of the transcriptome when using random pentadecamers over random hexamers. Using the same amount of aRNA as starting material, random pentadecamer-primed reactions resulted in 11-fold more genes being detected in whole transcriptome DNA microarray experiments than random hexamer-primed reactions. The results indicate that random pentadecamers can replace random hexamers in reverse transcription reactions on both poly(A) RNA and amplified RNA, resulting in higher cDNA yields and quality.

Published

2006

21. Transparent polymeric cell culture chip with integrated temperature control and uniform media perfusion.

Author

Petronis S, Stangegaard M, Christensen CB, and Dufva M

Subjects

Cell Separation methods, Computer-Aided Design, Culture Media metabolism, Equipment Design, Equipment Failure Analysis, HeLa Cells, Heating methods, Humans, Systems Integration, Temperature, Cell Culture Techniques instrumentation, Cell Separation instrumentation, Flow Injection Analysis methods, Heating instrumentation, Microfluidic Analytical Techniques instrumentation, Microscopy, Video methods, Polymethyl Methacrylate

Abstract

Modern microfabrication and microfluidic technologies offer new opportunities in the design and fabrication of miniaturized cell culture systems for online monitoring of living cells. We used laser micromachining and thermal bonding to fabricate an optically transparent, low-cost polymeric chip for long-term online cell culture observation under controlled conditions. The chip incorporated a microfluidic flow equalization system, assuring uniform perfusion of the cell culture media throughout the cell culture chamber. The integrated indium-tin-oxide heater and miniature temperature probe linked to an electronic feedback system created steady and spatially uniform thermal conditions with minimal interference to the optical transparency of the chip. The fluidic and thermal performance of the chip was verified by finite element modeling and by operation tests under fluctuating ambient temperature conditions. HeLa cells were cultured for up to 2 weeks within the cell culture chip and monitored using a time-lapse video recording microscopy setup. Cell attachment and spreading was observed during the first 10-20 h (lag phase). After approximately 20 h, cell growth gained exponential character with an estimated doubling time of about 32 h, which is identical to the observed doubling time of cells grown in standard cell culture flasks in a CO2 incubator.

Published

2006