Unconfigured Ad

Collapse
X
 
  • Filter
  • Time
  • Show
Clear All
new posts
  • MikhailFokin
    Member
    • Mar 2014
    • 15

    Dynamic/timeline RNAseq experiment design, reps vs time-points?

    Hi all, I am planning the time-course RNAseq study. Obviously, I am interested in max number of time-points, but I am limited by number of samples I can afford

    So, options are
    A. 3 biol reps X 2 time-points
    B. 2 biol reps X 3 time-points
    C. 1 biol reps X 6 time-points

    Some extra info:
    - I am not planning "Nature" article... thx for applause it is a kind of in-house experiment
    - I am interested, first of all, in a few dozens of genes, so I can test some of them by qPCR to be sure that my biol reps are identical (for each time-point) before NGS. I've studied the same kind of model before and biol reps were 99.999% identical in terms of expression

    Option A is traditional, but I think (and I am biased towards) that with option C I will be able to use something like genome-scale correlation analysis to group genes into co-expressed cohorts much more effectively than in var.A

    Any strong cons against option C?

    PS there were couple of similar questions before... with no answers
    Last edited by MikhailFokin; 09-19-2017, 01:09 PM.
  • luc
    Senior Member
    • Dec 2010
    • 469

    #2
    What organism? How closely related are the individuals?

    Comment

    • MikhailFokin
      Member
      • Mar 2014
      • 15

      #3
      thx luc!
      The organism - diploid mold, ~2x10k genes of which I am interested in ~100 highly expressed specific genes.

      Biol reps - are from exactly the same strain, the same inoculum. So they are identical (except harvesting time i.e. growth phase).
      The main goal is to investigate dynamics and correlations between different genes in time (in case of any concerns I can check more reps by qPCR).
      Last edited by MikhailFokin; 09-19-2017, 12:39 PM.

      Comment

      • MikhailFokin
        Member
        • Mar 2014
        • 15

        #4
        technically with option C (1 rep x 6 times), I will have multiple (by number of genes) vectors of length 6. And will be able to group them into clusters by absolute or relative expression

        Comment

        • luc
          Senior Member
          • Dec 2010
          • 469

          #5
          Hi Mikhail,
          I would suggest to have your cake and eat it too (three replicates and six time points) by using a cheaper RNA-seq protocol. Assuming you have a reference genome and gene annotations, 3'-Tag-Seq should give you all the data needed. You could use for example kits from Amaryllis Nucleics or Lexogen.

          Comment

          • MikhailFokin
            Member
            • Mar 2014
            • 15

            #6
            Thank you! Interesting options... Since there is clearly the gap between qPCR and RNAseq.

            Comment

            Latest Articles

            Collapse

            • mylaser
              Reply to Advanced Sequencing Platforms Tackle Neuroscience’s Toughest Genomics Problems
              by mylaser
              Kheloyar – Everything You Need to Know About Kheloyaar Login and Kheoyar Id
              If you are looking for an online gaming platform that offers a user-friendly experience, Kheloyar has become a name that many users search for. Whether you're interested in creating a new account, accessing your dashboard through Kheloyaar Login, or learning how to obtain a Kheoyar Id, understanding the platform's features and account process is essential.
              This guide explains everything you need to know about...
              Today, 01:13 AM
            • SEQadmin2
              Advanced Sequencing Platforms Tackle Neuroscience’s Toughest Genomics Problems
              by SEQadmin2



              Genomics studies in neuroscience face a special challenge due to the brain’s complexity and scarcity of samples. Mapping changes in cell type and state using conventional next-generation sequencing methods remains challenging. Advances in technologies like single-cell sequencing, spatial transcriptomics, and long-read sequencing have opened the door to deeper studies of the brain and diseases like Alzheimer’s, amyotrophic lateral sclerosis (ALS), and schizophrenia.
              ...
              07-09-2026, 11:10 AM
            • SEQadmin2
              Cancer Drug Resistance: The Lingering Barrier to Rising Survival
              by SEQadmin2



              Cancer survival rates have significantly increased in the last few decades in the United States, reaching a combined 70% 5-year survival rate by 2021. Behind this number, there are years of research to find new therapies, drug targets, and early detection methods. But there is one core challenge that keeps slowing down these advances, and it’s about drug resistance.

              There is no single reason why many patients don’t respond to treatment as expected. Cancer is...
              07-08-2026, 05:17 AM

            ad_right_rmr

            Collapse

            News

            Collapse

            Topics Statistics Last Post
            Started by SEQadmin2, 07-09-2026, 10:04 AM
            0 responses
            15 views
            0 reactions
            Last Post SEQadmin2  
            Started by SEQadmin2, 07-08-2026, 10:08 AM
            0 responses
            10 views
            0 reactions
            Last Post SEQadmin2  
            Started by SEQadmin2, 07-07-2026, 11:05 AM
            0 responses
            20 views
            0 reactions
            Last Post SEQadmin2  
            Started by SEQadmin2, 07-02-2026, 11:08 AM
            0 responses
            31 views
            0 reactions
            Last Post SEQadmin2  
            Working...