Multiplexed DNA Identification Using Site Specific dCas9 Barcodes and Nanopore Sensing

Weckman, Nicole E.; Ermann, Niklas; Gutierrez, Richard; Chen, Kaikai; Graham, James E.; Tivony, Ran; Heron, Andrew J.; Keyser, Ulrich F.

doi:10.1021/acssensors.9b00686

Cited by 57 publications

(49 citation statements)

References 28 publications

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“…As a result, almost half of the overall waste reduction accounts for a 35% percent drop in the garbage disposal, and the other half is for recycling. This finding is consistent with the US surrender program, which reduces municipal waste by 25-35% for disposal [110].…”

Section: Rfid Transponders On Curbside Waste and Recycling Binssupporting

confidence: 87%

The Role of RFID in Green IoT: A Survey on Technologies, Challenges and a Way Forward

Yusoff¹,

Ishak²,

Alezabi³

2021

Adv. sci. technol. eng. syst. j.

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The Internet of Things (IoT) is a technology that enables communication between everyday life using different sensor actuators that work together to identify, capture, and distribute critical data from the planet. Massive machines and devices are therefore linked and communicate with them. The use of resources in this area presents new challenges for this technology. The goal was to find a green IoT that focuses on energy efficiency and IoT efficiency. Green IoT is an energy-efficient way to reduce or eliminate the greenhouse effect of current applications. Radio Frequency Identification (RFID) is one of the Green IoT and Master IoT components that identifies a person or entity in a high-frequency electromagnetic spectrum when combining electromagnetic or electrostatic couplings. If the predictions are also correct, energy use issues arise as active battery-powered RFID detection needs to be addressed by incorporating new solutions for Green IoT technology. Past studies and assessments have attempted to evaluate RFID technology and its functions. Unfortunately, however, they concentrated on a single RFID view of technique and technology. This paper examines holistically and systematically the impact of RFID applications on green IoT, focusing on three categories: the challenges, environmental consequences, and the benefits of green IoT RFID applications. The impacts, performance and safety of RFID IoT applications have been carefully described. The benefits and examples of RFID applications, including their key advantages and disadvantages, are also discussed. Overall, this paper highlights the potential efforts of RFID to address existing Green IoT issues.

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Section: Rfid Transponders On Curbside Waste and Recycling Binssupporting

confidence: 87%

The Role of RFID in Green IoT: A Survey on Technologies, Challenges and a Way Forward

Yusoff¹,

Ishak²,

Alezabi³

2021

Adv. sci. technol. eng. syst. j.

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“…Using nanopores as a sensing strategy enables detection of dsDNA without unzipping or temperature changes and also opens up opportunities for multiplexing. Yang et al showed that the binding position of the dCas9 effector protein could be deduced from the ionic current spike, which was later also confirmed by Weckman et al ( Weckman et al, 2019 ; Yang et al, 2018 ). The latter authors designed multiple crRNA sequences for dCas9 that could all bind to the same DNA sequence, creating ‘barcodes’ in the ionic current traces specific for the different DNA sequences.…”

Section: Crispr/cas Sensing In Poc Sensorsmentioning

confidence: 66%

“…Several sensor types have been created by researchers so far, in which no target-amplification is needed to measure at a very low LOD. These sensors are a graphene-based field effect transistor (gFET) ( Hajian et al, 2019 ), nanopore sensors ( Weckman et al, 2019 ; Yang et al, 2018 ), electrochemical sensors ( Bruch et al, 2019 ; Dai et al, 2019 ; Xu et al, 2020 ; D. Zhang et al, 2020 ) and a conductivity sensor combined with a DNA gel ( English et al, 2019 ).…”

Section: Crispr/cas Sensing In Poc Sensorsmentioning

confidence: 99%

Point-of-care CRISPR/Cas nucleic acid detection: Recent advances, challenges and opportunities

Dongen

Berendsen

Steenbergen

et al. 2020

Biosensors and Bioelectronics

287

191

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With the trend of moving molecular tests from clinical laboratories to on-site testing, there is a need for nucleic acid based diagnostic tools combining the sensitivity, specificity and flexibility of established diagnostics with the ease, cost effectiveness and speed of isothermal amplification and detection methods. A promising new nucleic acid detection method is Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)-associated nuclease (Cas)-based sensing. In this method Cas effector proteins are used as highly specific sequence recognition elements that can be combined with many different read-out methods for on-site point-of-care testing. This review covers the technical aspects of integrating CRISPR/Cas technology in miniaturized sensors for analysis on-site. We start with a short introduction to CRISPR/Cas systems and the different effector proteins and continue with reviewing the recent developments of integrating CRISPR sensing in miniaturized sensors for point-of-care applications. Finally, we discuss the challenges of point-of-care CRISPR sensing and describe future research perspectives.

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“…Toward the ultimate goal of integrating the different functional molecules into the specific sites of the circuit, the selective fabrication of single-molecule junction remained as one of the critical steps but remained unexplored, while the control of the interaction between the molecule and electrodes will offer a unique opportunity. [1,2] The control over the interaction between molecule and electrode promises to vast applications in numerous subjects, such as catalysis, [3,4] materials, [5][6][7] sensors, [8][9][10][11] molecular biology, [12][13][14][15] and bottom-up devices. [16,17] In recent years, the single-molecule conductance measurement technique has witnessed significant progress in surface science, that an…”

Section: Doi: 101002/smll202004720mentioning

confidence: 99%

Selective Fabrication of Single‐Molecule Junctions by Interface Engineering

Zeng

Wang

Qian

et al. 2020

Small

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Recent progress in addressing electrically driven single‐molecule behaviors has opened up a path toward the controllable fabrication of molecular devices. Herein, the selective fabrication of single‐molecule junctions is achieved by employing the external electric field. For molecular junctions with methylthio (–SMe), thioacetate (–SAc), amine (–NH2), and pyridyl (–PY), the evolution of their formation probabilities along with the electric field is extracted from the plateau analysis of individual single‐molecule break junction traces. With the increase of the electric field, the SMe‐anchored molecules show a different trend in the formation probability compared to the other molecular junctions, which is consistent with the density functional theory calculations. Furthermore, switching from an SMe‐anchored junction to an SAc‐anchored junction is realized by altering the electric field in a mixed solution. The results in this work provide a new approach to the controllable fabrication and modulation of single‐molecule junctions and other bottom‐up nanodevices at molecular scales.

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Multiplexed DNA Identification Using Site Specific dCas9 Barcodes and Nanopore Sensing

Cited by 57 publications

References 28 publications

The Role of RFID in Green IoT: A Survey on Technologies, Challenges and a Way Forward

The Role of RFID in Green IoT: A Survey on Technologies, Challenges and a Way Forward

Point-of-care CRISPR/Cas nucleic acid detection: Recent advances, challenges and opportunities

Selective Fabrication of Single‐Molecule Junctions by Interface Engineering

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