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Before a cell can divide, it must accurately replicate all of its chromosomes, including the DNA and its associated histone and non-histone proteins.  This process begins at numerous origins of replication during the S phase of the cell cycle in each of a cell’s chromosomes simultaneously. Certain nucleotides can act as origins of replication, but these sequences are not well defined - especially in complex, multi-cellular, eukaryotic species. The length of DNA that spans an origin...
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Towards More Robust Nanobioscience: Launching the NanoBubbles Replication Initiative.

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The NanoBubbles Reproducibility Initiative assessed the reliability of key nanobioscience research. This study details the initiative

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Area of Science:

  • Nanobioscience
  • Scientific Reproducibility

Background:

  • Highly cited nanobioscience articles are foundational.
  • Assessing the reproducibility of such impactful research is crucial for scientific integrity.

Purpose of the Study:

  • To document the establishment and execution of the NanoBubbles Reproducibility Initiative.
  • To share insights on platform adoption and challenges encountered during the reproducibility investigation.

Main Methods:

  • Corpus creation of highly cited nanobioscience articles.
  • Systematic process documentation from inception to results publication.
  • Platform evaluation for supporting reproducibility studies.

Main Results:

  • Detailed account of the initiative's setup process.
  • Identification of practical challenges in conducting reproducibility studies.
  • Successful implementation of platforms for nanobioscience research verification.

Conclusions:

  • The initiative provides a framework for future reproducibility studies in nanobioscience.
  • Lessons learned can inform improved experimental designs and reporting standards.
  • Fostering open dialogue and collaboration is essential for advancing scientific robustness.