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The Market for Real-Time PCR Reagents & Instrumentation

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market research, life science market, biotech market, biotechnology market, proteomics market, DNA sequencing market, biosciences market, microarrays market, molecular biology market, reagent market, qPCR market, genomics market, customer surveys, bioinformatics

Publication Date: 01-APR-03
Pages: 180
Hardcopy Print -- $800.00
PDF document -- $1,100.00
    

Description

Real-time or quantitative polymerase chain reaction (qPCR) is an important scientific advancement that greatly extends the usefulness of PCR technology. After its introduction in the mid-1980s, PCR quickly became an indispensable tool for many scientists and clinicians who needed a method to amplify and characterize genetic material from small biological samples. However, the standard PCR technique has one major limitation: its output is mostly qualitative rather than quantitative. qPCR overcomes this limitation through the use of fluorescence labeling, which in conjunction with specialized amplification and detection systems, allows users to monitor the progress of the amplification reaction as it occurs.

qPCR has a host of potential applications, some of which include comparing gene expression levels in normal and diseased tissues, determining viral and bacterial loads, and genotyping. From basic researchers wanting to elucidate cellular processes to infield detection of infectious agents, the potential market for qPCR technology continues to expand.

The Market for Real-Time PCR Reagents & Instrumentation gives an in-depth look at the competitive market for qPCR reagents and instrumentation. Based on a detailed 52-question survey of 406 scientists who currently perform qPCR, this report describes their research interests and specific applications. Survey respondents involved in fields such as virology, diagnostics development, molecular and cellular biology and drug discovery revealed their levels of usage, preferred vendors and unmet needs.

The report provides a wealth of information about the most attractive target markets, key purchase drivers and projected growth segments. As many suppliers have already capitalized on scientists' requirements for easy-to-use kits containing pre-mixed reagents, the most popular kits and reagents are identified in the report, along with informative user feedback. Fluorescent detection methods, including TaqMan probes, molecular beacons and intercalating dyes, represent another major area of focus along with respondents' opinions about instrumentation. Additionally, to assist life science companies in understanding how qPCR is used in concert with other applications, qPCR users were also queried on their use of methodologies such as microarrays and RNA interference (RNAi)

For this powerful and new technique, The Market for Real-Time PCR Reagents & Instrumentation will assist life science companies in their positioning, product development and marketing efforts by providing a comprehensive perspective on current and emerging research trends, and potential tie-ins with other laboratory products.

Report Highlights
The Market for Real-Time PCR Reagents & Instrumentation contains over 100 charts and/or tables and over 25 cross-tabulations for the 52 survey questions. After questions 4 and 36, there were skip patterns in the questionnaire to direct the respondents to the questions that best reflect their experience with quantitative PCR, the templates they use and their primary method of detection. Below is a glimpse of the key findings derived from just a few of the survey questions:

•"Gene expression-primary validation" (55%) and "gene expression-confirmation of microarray data" (30%) are the top two primary research objectives of qPCR experiments that use an RNA or cDNA template. (Question 5)

•Most respondents use a commercially available qRT-PCR kit because they "prefer convenience of a kit" (46%) and "prefer guaranteed optimized system" (45%). (Question 15)

•Applied Biosystems is the top supplier of qRT-PCR kits, followed by Roche Applied Science and Qiagen. (Question 17)

•48% of the respondents project that the number of qPCR amplifications conducted in their lab will increase over the next year. 43% of these scientists predict an increase of over 40%. (Question 26)

•"Specificity" (42%) and "sensitivity" (28%) are the top two reasons that scientists use fluorescent probes or primers to detect real-time amplification products. (Question 38)

•The three most influential features in a scientist's decision to purchase one real-time quantitative PCR instrument over another are "price", "sensitivity" and "software." (Question 51)

(electronic copy also includes 1 print copy)

Table of Contents

  1. Section 1 Analysis and Interpretation of Survey Results
  2. Profile of a Maturing Market
  3. Amplification of an RNA Template
  4. Amplification of a DNA Template
  5. Detection Chemistries
  6. Instrumentation
  8. Section 2 Study Methodology and Demographics
  9. Objectives
  10. Comments
  11. Quadrant Analysis (Bivariate Correlation)
  12. Assumptions
  13. Definition of Terms
  14. Market Segment
  15. Job Position
  16. Geographic Region
  17. Area(s) of Research
  18. Questionnaire
  20. Section 3 Presentation of Survey Data
  21. Current use of kinetic or real-time quantitative PCR using DNA, cDNA or RNA in research
  22. Length of time performing kinetic or real-time quantitative PCR using DNA, cDNA or RNA
  23. Use of qualitative or quantitative real-time PCR
  24. Use of DNA, cDNA and RNA as templates in kinetic or real-time quantitative PCR
  26. Quantitative RT-PCR Experimental Design (Respondents = 206)
  27. Primary research objective of quantitative PCR experiments that use an RNA or cDNA template
  28. Other RNA analysis related techniques currently used
  29. Source materials for the RNA or cDNA template
  30. Average number of RNA samples prepared for qRT-PCR analysis per month
  31. Average number of different mRNA targets quantified from each RNA sample
  32. Use of multiplex qRT-PCR
  33. Average number of quantitative qRT-PCR assays run per month in lab
  34. Future number of quantitative RT-PCR assays conducted in lab
  35. Cost to perform quantitative RT-PCR per reaction
  36. Most frequently used format for qRT-PCR
  37. Products most often used
  38. Reverse transcriptase most often used
  39. qRT-PCR kit most often used
  40. Satisfaction with product features of the qRT-PCR kit and/or reagents used
  41. Satisfaction with the qRT-PCR kit and/or reagents purchased
  43. Quantitative PCR Experimental Design (Respondents = 200)
  44. Primary research objective of quantitative PCR experiments that use a DNA template
  45. Source materials for the DNA template
  46. Average number of DNA samples prepared for qPCR analysis per month
  47. Average number of different DNA targets quantified from each DNA sample
  48. Use of multiplex qPCR
  49. Average number of qPCR amplifications performed on DNA samples per month in lab
  50. Future number of qPCR amplifications conducted in lab
  51. Average reaction volume used per qPCR amplification
  52. Average number of units of amplification enzyme used per qPCR amplification
  53. Cost to perform quantitative PCR per reaction
  54. Products most often used
  55. Frequency of using UNG (uracil-N-glycosylase)/dUTP incorporation for carryover protection in quantitative PCR reactions
  56. DNA polymerase most often used
  57. qPCR kit most often used
  58. Satisfaction with product features of the qPCR kit and/or reagents used
  59. Satisfaction with the qPCR kit or reagents purchased
  61. Detection Chemistries (Respondents = 278)
  62. Detection methods used for real-time qPCR or qRT-PCR applications
  63. Primary reason for using SYBR Green to detect real-time amplification products*
  64. Primary reason for using fluorescent probes or primers to detect real-time amplification products
  65. Fluorescent probes or primers used in qPCR or qRT-PCR applications
  66. 3' modifications routinely requested when ordering fluorescent oligonucleotides
  67. 5' modifications routinely requested when ordering fluorescent oligonucleotides
  68. Average number of unique probes/primer sets for qPCR or qRT-PCR designed per month
  69. Future number of unique probes/primers for qPCR or qRT-PCR designed in lab
  70. Primary commercial supplier of fluorescent oligonucleotides for qPCR or qRT-PCR applications
  71. Satisfaction with features of the fluorescently labeled oligonucleotides used in qPCR or qRT-PCR applications
  72. Overall satisfaction with the fluorescently labeled oligonucleotides used in qPCR or qRT-PCR applications
  74. Instrumentation (Respondents = 406)
  75. Real-time quantitative PCR instrument used most often
  76. Satisfaction with features of the real-time quantitative PCR instrument used
  77. Satisfaction with the real-time quantitative PCR instrument used
  78. Likelihood that the same real-time quantitative PCR instrument again would be purchased again
  79. Most influential features in decision to purchase one real-time quantitative PCR instrument over another
  81. Section 4 Appendices
  82. Insights & Perspectives
  83. Cross-Tabulations
  84. Other Recent Publications
  85. About BioInformatics
  86. Our Valued Clients
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