In a recent Nature Nanotechnology study, researchers describe diverse applications of nanopore-based technology beyond deoxyribonucleic acid (DNA) sequencing. More specifically, the current research focuses on the advancements of this technology within chemistry, biophysics, and nanoscience.
Study:Nanopore-based technologies beyond DNA sequencing. Image Credit: Yurchanka Siarhei / Shutterstock.com
In a conventional application, analytes of interest will enter the nanopore under an applied current that changes the flow of ions through the nanopore. This change in ion flow is reflected as a time-dependent current recording that can be used to sense and characterize various biomolecules such as DNA, RNA, proteins, peptides, metabolites, and protein-DNA complexes at the molecular level.
The type of nanopore employed for a given study depends upon the analyte of interest, as both the nanopore and analyte dimensions should be comparable to produce a recordable change in ionic current.
Biological nanopores, for example, can recognize biomolecules with diameters within the range of -1 to 10 nanometers (nm). Comparatively, solid-state nanopores are used for optical applications, including electron/ion million, laser-based optical etching, and the dielectric breakdown of ultrathin solid membranes.
Although nanopores were initially developed for sensing ions and small molecules, particularly for DNA sequencing purposes, the applications of this technology have expanded considerably.
Some of the key advantages of nanopores that have contributed to their widespread application include their ability to capture single molecules consecutively and at a rapid rate, convert both the structural and chemical properties of analytes into a measurable ionic current, and identify label-free species for signal amplification.
Solid-state nanopores can help extract the generic properties of proteins, such as volume, dipole, and shape. In addition, ligands, such as biotin, aptamers, protein domains, or antibodies, can directly attach to biological nanopores, even in the presence of complex media, such as serum.
In addition to identifying proteins, nanopores can act as single-molecule sensors to provide information on proteins' activity, dynamics, and conformational changes. By trapping a protein inside of a biological nanopore, for example, researchers can obtain information on the proteins conformational changes and dynamics as it remains within the nanopore.
Although nanopores cannot provide information on the activities of individual enzymes, they may be able to monitor the formation of products following enzymatic reactions, mainly when conventional spectroscopic assays are unavailable.
Biological nanopores engineered to contain reactive sites are referred to as protein nanoreactors. These specific nanopores could assist in the analysis of bond-making and bond-breaking events of individual molecules attached to the interior wall of a nanopore as it modulates the ionic current. Additional applications of nanoreactors include the analysis of phytochemistry, stereochemical transformations, polymerization steps, and a primary isotope effect.
Cells feature several nm-sized pores within their membranes that act as gateways for molecular transport between cell compartments. To better understand the mechanisms involved in the transport of biomolecules through these pores, they could be extracted from the cell and docked within planar lipid membranes. Unfortunately, this reconstitution approach is extremely difficult; thus, nanopores offer exciting opportunities to study cell biology.
Various engineered nanopore-based systems can mimic biological pores in vitro, such as asymmetric solid-state nanopores, which could mimic switchable ion channels to study ion pumps and ion- and pH-gated pores. In addition, synthetic DNA origami pores can also be used to mimic ligand-gated ion channels, whereas biological nanopores can be designed to mimic passive or active membrane transporters.
The nuclear pore complex (NPC), a larger pore that regulates the transportation of proteins and RNAs between cellular compartments, may also be studied through biomimetic NPCs. Although considerable information is available on the biological function of NPCs, biomimetic NPCs can be used to better understand the specific transport properties of these biological pores.
Analyzing the presence of specific biomarkers within biomedical samples, such as bodily fluids, tissue biopsies, or other biological specimens, such as viruses, bacteria, and cell cultures, is associated with numerous challenges.
For example, target biomolecules within samples, many of which are nucleic acids or proteins, can be present in concentrations ranging from tens of attomolar (1018M) to the subnanomolar (109M) range. In addition, such clinical samples also comprise various other biomolecules that may interfere with the nanopore sensor itself.
To overcome these limitations, various smart bioassays and devices utilizing nanopore sensing technology have been developed to analyze clinical samples. For example, novel microfluidic devices integrated with nanopore sensors can potentially be used for sample preparation or detecting analyte concentration levels.
Furthermore, specific biochemical assays based on biological nanopores can enhance molecular specificity while simultaneously eliminating unwanted interactions from background molecules. This approach can also reduce the loss of targeted molecules during sample preparation while ensuring that the nanopore is protected against any potential degradation from surrounding biomolecules.
With nanopore design improvements, these technologies will continue to evolve and address scientific challenges. Moreover, researchers anticipate that nanopores will find novel applications in a wide range of areas, from molecular sensing and sequencing to chemical catalysis and biophysical characterization.
Read the original post:
Many diverse nanopore research directions and applications beyond DNA sequencing - News-Medical.Net
- Bristol researcher awarded Women in Cell Biology Early Career Medal 2025 - University of Bristol - December 23rd, 2024 [December 23rd, 2024]
- Simple and effective embedding model for single-cell biology built from ChatGPT - Nature.com - December 9th, 2024 [December 9th, 2024]
- Distinguished investigator brings expertise in genetics and cell biology to Texas A&M AgriLife - AgriLife Today - October 26th, 2024 [October 26th, 2024]
- Institute of Molecular and Cell Biology (IMCB) - Agency for Science, Technology and Research (A*STAR) - October 13th, 2024 [October 13th, 2024]
- Joseph Gall, father of modern cell biology, dead at 96 - Carnegie Institution for Science - September 15th, 2024 [September 15th, 2024]
- A dual role of ERGIC-localized Rabs in TMED10-mediated unconventional protein secretion - Nature.com - June 27th, 2024 [June 27th, 2024]
- Yoshihiro Yoneda Appointed President of the International Human Frontier Science Program Organization - PR Newswire - June 27th, 2024 [June 27th, 2024]
- A new way to measure ageing and disease risk with the protein aggregation clock - EurekAlert - June 18th, 2024 [June 18th, 2024]
- How Flow Cytometry Spurred Cell Biology - The Scientist - June 18th, 2024 [June 18th, 2024]
- Building Cells from the Bottom Up - The Scientist - June 18th, 2024 [June 18th, 2024]
- From Code to Creature - The Scientist - June 18th, 2024 [June 18th, 2024]
- Adding intrinsically disordered proteins to biological ageing clocks - Nature.com - May 24th, 2024 [May 24th, 2024]
- Advancing Cell Biology and Cancer Research via Cell Culture and Microscopy Imaging Techniques - Lab Manager Magazine - May 24th, 2024 [May 24th, 2024]
- Study explores how different modes of cell division evolved in close relatives of fungi and animals - News-Medical.Net - May 24th, 2024 [May 24th, 2024]
- Solving the Wnt nuclear puzzle - Nature.com - May 24th, 2024 [May 24th, 2024]
- Prof. Jay Shendure Joins Somite Therapeutics as Scientific Co-founder - BioSpace - May 24th, 2024 [May 24th, 2024]
- One essential step for a germ cell, one giant leap for the future of reproductive medicine - EurekAlert - May 24th, 2024 [May 24th, 2024]
- May: academy-medical-sciences | News and features - University of Bristol - May 24th, 2024 [May 24th, 2024]
- Universal tool for tracking cell-to-cell interactions - ASBMB Today - May 24th, 2024 [May 24th, 2024]
- Close Encounters of Skin and Nerve Cells - The Scientist - April 15th, 2024 [April 15th, 2024]
- OrthoID: Decoding Cellular Conversations with Cutting-Edge Technology - yTech - April 15th, 2024 [April 15th, 2024]
- Impact of aldehydes on DNA damage and aging - EurekAlert - April 15th, 2024 [April 15th, 2024]
- Redefining Cell Biology: Nondestructive Genetic Insights With Raman Spectroscopy - SciTechDaily - March 29th, 2024 [March 29th, 2024]
- Scientists Unravel the Unusual Cell Biology Behind Toxic Algal Blooms - SciTechDaily - March 19th, 2024 [March 19th, 2024]
- Ancient retroviruses played a key role in the evolution of vertebrate brains - EurekAlert - February 21st, 2024 [February 21st, 2024]
- Singapore scientists uncover a crucial link between cholesterol synthesis and cancer progression - EurekAlert - February 4th, 2024 [February 4th, 2024]
- Scientists uncover a way to "hack" neurons' internal clocks to speed up brain cell development - News-Medical.Net - February 4th, 2024 [February 4th, 2024]
- First atomic-scale 'movie' of microtubules under construction, a key process for cell division - EurekAlert - February 4th, 2024 [February 4th, 2024]
- Small RNAs take on the big task of helping skin wounds heal better and faster with minimal scarring - EurekAlert - February 4th, 2024 [February 4th, 2024]
- Shengjie Feng channels the powers of cryogenic electron microscopy - Newswise - January 19th, 2024 [January 19th, 2024]
- Study pinpoints breast cancer cells-of-origi - EurekAlert - January 19th, 2024 [January 19th, 2024]
- New analysis of cancer cells identifies 370 targets for smarter, personalized treatments - News-Medical.Net - January 19th, 2024 [January 19th, 2024]
- EU funding for pioneering research on the treatment of gliomas - EurekAlert - January 19th, 2024 [January 19th, 2024]
- The future of mRNA biology and AI convergence - Drug Target Review - December 22nd, 2023 [December 22nd, 2023]
- The future of artificial breast milk, according to one lab - Quartz - December 22nd, 2023 [December 22nd, 2023]
- Shedding new light on the hidden organization of the cytoplasm - News-Medical.Net - December 22nd, 2023 [December 22nd, 2023]
- Bugs that help bugs: How environmental microbes boost fruit fly reproduction - EurekAlert - December 22nd, 2023 [December 22nd, 2023]
- Cells Move in Groups Differently Than They Do When Alone - NYU Langone Health - December 14th, 2023 [December 14th, 2023]
- Cells move in groups differently than they do when alone - EurekAlert - December 14th, 2023 [December 14th, 2023]
- Seattle Hub for Synthetic Biology plans to transform cells into tiny recording devices - GeekWire - December 14th, 2023 [December 14th, 2023]
- Virginia Tech and Weizmann Institute of Science tackle cell ... - Virginia Tech - October 16th, 2023 [October 16th, 2023]
- Vast diversity of human brain cell types revealed in trove of new ... - Spectrum - Autism Research News - October 16th, 2023 [October 16th, 2023]
- Singamaneni to develop advanced protein imaging method - The ... - Washington University in St. Louis - October 16th, 2023 [October 16th, 2023]
- Researchers find certain cancers can activate 'enhancer' in the ... - University of Toronto - October 16th, 2023 [October 16th, 2023]
- 2023 Hettleman Prizes awarded to five exceptional early-career ... - UNC Research - October 16th, 2023 [October 16th, 2023]
- Faeth Therapeutics Announces National Academy of Medicine ... - BioSpace - October 16th, 2023 [October 16th, 2023]
- From Migrant Farm Worker to Duke Scientist, Everardo Macias ... - Duke University School of Medicine - October 16th, 2023 [October 16th, 2023]
- Finding the golden ticket? Cyclin T1 is required for HIV-1 latency ... - Fred Hutch News Service - October 16th, 2023 [October 16th, 2023]
- Spermidine May Improve Egg Health and Fertility - Lifespan.io News - October 16th, 2023 [October 16th, 2023]
- Molecule discovered that grows bigger and stronger muscles - Earth.com - October 16th, 2023 [October 16th, 2023]
- SGIOY: 3 Biotech Stocks With Potential Future Gains - StockNews.com - October 16th, 2023 [October 16th, 2023]
- Association for Molecular Pathology Publishes Best Practice ... - Technology Networks - October 16th, 2023 [October 16th, 2023]
- A new cell type with links to gastric cancer steps up for its mugshot - Fred Hutch News Service - October 16th, 2023 [October 16th, 2023]
- Programmed cell death may be 1.8 billion year - EurekAlert - October 16th, 2023 [October 16th, 2023]
- New study confirms presence of flesh-eating and illness-causing ... - Science Daily - October 16th, 2023 [October 16th, 2023]
- New Institute for Immunologic Intervention (3i) at the Hackensack ... - Hackensack Meridian Health - October 16th, 2023 [October 16th, 2023]
- Post-doctoral Fellow in Cancer Biology in the Department of ... - Times Higher Education - October 16th, 2023 [October 16th, 2023]
- Scientists uncover key enzymes involved in bacterial pathogenicity - News-Medical.Net - October 16th, 2023 [October 16th, 2023]
- B cell response after influenza vaccine in young and older adults - EurekAlert - October 16th, 2023 [October 16th, 2023]
- Post-doctoral researcher in yeast cell biology job with UNIVERSITY ... - Times Higher Education - April 8th, 2023 [April 8th, 2023]
- expert reaction to study looking at creating embryo-like structures ... - Science Media Centre - April 8th, 2023 [April 8th, 2023]
- UCF Bone Researcher Receives National Recognition - UCF - April 8th, 2023 [April 8th, 2023]
- PhenomeX to Participate in American Association of Cancer ... - BioSpace - April 8th, 2023 [April 8th, 2023]
- Inland Empire stem-cell therapy gets $2.9 million booster - UC Riverside - April 8th, 2023 [April 8th, 2023]
- New finding in roundworms upends classical thinking about animal cell differentiation - News-Medical.Net - April 8th, 2023 [April 8th, 2023]
- Biology's unsolved chicken-or-egg problem: Where did life come from? - Big Think - April 8th, 2023 [April 8th, 2023]
- Azacitidine in Combination With Trametinib May Be Effective for ... - The ASCO Post - April 8th, 2023 [April 8th, 2023]
- Researchers clear the way for well-rounded view of cellular defects - Phys.org - April 8th, 2023 [April 8th, 2023]
- We were dancing around the lab cellular identity discovery has potential to impact cancer treatments - Newswise - April 8th, 2023 [April 8th, 2023]
- Environmental stressors' effect on gene expression explored in lecture - Environmental Factor Newsletter - April 8th, 2023 [April 8th, 2023]
- RNA therapy restores gene function in monkeys modeling ... - Spectrum - Autism Research News - April 8th, 2023 [April 8th, 2023]
- Traumatic brain injury interferes with immune system cells' recycling ... - Science Daily - April 8th, 2023 [April 8th, 2023]
- Lab-grown fat could give cultured meat real flavor and texture - EurekAlert - April 8th, 2023 [April 8th, 2023]
- Researchers reveal mechanism of polarized cortex assembly in migrating cells - Phys.org - April 8th, 2023 [April 8th, 2023]
- Probing Selfish Centromeres Unveils an Evolutionary Arms Race - The Scientist - April 8th, 2023 [April 8th, 2023]
- Meet the 2023 Outstanding Graduating Students - UMaine News ... - University of Maine - April 8th, 2023 [April 8th, 2023]
- The Worlds Sexiest Fragrance Unveiled, But Its Not For You - Revyuh - April 8th, 2023 [April 8th, 2023]
- City of Hope appoints John D. Carpten, Ph.D., as director of its ... - BioSpace - April 8th, 2023 [April 8th, 2023]
- Modernized Algorithm Predicts Drug Targets for SARS-CoV-2, Other ... - GenomeWeb - April 8th, 2023 [April 8th, 2023]
- BU researcher wins $3.9 million NIH grant to develop novel therapeutic modalities for Alzheimer's - News-Medical.Net - April 8th, 2023 [April 8th, 2023]