Droplet | On-chip Biotechnologies

“Droplets” can be easily generated in large quantities and have the ability to encapsulate microorganisms or cells individually, allowing for the analysis of a wide variety of samples simultaneously and in parallel. Therefore, Droplet has been used in various fields, including high-throughput screening (HTS), making use of various advantages such as accelerated generation and analysis, small-bioreactor culture, and single-cell analysis.

Advantages of droplet technology

Each droplet (picoliter-scale) functions as each well (microliter-scale) of a well-plate.
Over one million droplets (reaction compartments) can be stored in a single tube.
Significant savings can be achieved in analysis time, reagent consumption, and incubation space.
Target droplet can be screened by On-chip Sort/On-chip Droplet Selector

	Micro-titer plate (Conventional method)	Droplet (Next generation method)
One reaction volume	100μL/1well	100pL ～ 1 drop
For analysis of one million samples	2,600 plates (384-well)	One tube only
Analysis Speed	Long (several days)	Short (several hours)
Cost	High	Low

Applications

Water-in-oil (W/O) droplets

Schematic of a W/O droplet (left) and microscopic image of environmental microorganism culture (right)

・Structure:: Emulsion in which water droplets (e.g. the medium) are dispersed in oil and stabilized by surfactants.
・Features:: Microorganisms/cells grow and metabolites accumulate in each droplet as they are compartmentalized by oil. The addition of substrates allows for the detection of metabolites along with the cultivation.
・Use:: Microbial culture, screening of environmental microbes/mutant strains, directed evolution of enzymes, etc.

Single-cell cultivation

Filamentous fungi Trichoderma reesei expressing GFP *Trichoderma reesei*

Single-cell encapsulation and cultivation allow massively parallel screening based on the growth, protein expression, and secretion amount.

Luu, X. C., Shida, Y., Suzuki, Y., Sato, N., Nakamura, A., Ogasawara, W.. New Biotechnology 2022 72, 149-158.

Novel microorganisms screening

Microorganisms from industrial wastewater with specific protease activity

As a tool for isolating novel microorganisms from diverse environments, including soil, hydrosphere, and extreme environments.

Nakamura, A., Honma, N., Tanaka, Y., Suzuki, Y., Shida, Y., Tsuda, Y., Hidaka, K., Ogasawara, W., Analytical Chemistry 2022 94 (5), 2416-2424.

Cell-cell interaction

Co-encapsulation of GFP-expressing pathogens and soil microorganisms. Green fluorescence is attenuated in droplets showing antagonistic effects.

Droplet Library can be easily prepared containing combinations of various types of bacteria by taking advantage of the feature of high-throughput droplet generation.

The results are obtained in conjunction with Dr. Yasunori Ichihashi and Dr. Megumi Narukawa, RIKEN BioResource Research Center

Gel microdrops (GMD)

Schematic of a GMD (left) and microscopic image of cancer cell culture (right)

・Structure:: Droplets with gelled interior.
・Features:: Substances are highly permeable both inside and outside the droplet structure because the droplets can be dispersed in an outer aqueous phase, such as a culture medium, rather than in oil, while relatively large materials such as cells, beads, and genomes are retained by the gel as a scaffold.
・Use：: Cell culture, screening of mutant strains/antibody-producing cells, microbial interaction studies, etc.

Isolation of Protein High-Producing Strains

Recombinant protein-producing budding yeast

High-throughput screening of high-producing strains from a large number of candidates such as UV mutant libraries

Fujitani, H., Tsuda, S., Ishii, T., Machida, M., bioRxiv 2019

Screening based on substance production

Oleaginous microorganisms stained with BODIPY

Staining of microorganisms after GMD cultivation allows screening based on substance production such as lipids.

Tanaka, Y., Nakamura, A., Suzuki, Y., Maruta, K., Shida, Y., Ogasawara, W. , Journal of Biotechnology 2022 358, 46-54.

Elucidation of the gut microbiota function

High-throughput screening to elucidate the function of diverse gut microbiota

The results are obtained in conjunction with Prof. Shinji Fukuda, Institute for Advanced Biosciences, Keio University

Droplet Sorting by Microfluidics Chip

On-chip Sort / On-chip Droplet Selector enables the screening of droplets of interest based on enzyme reaction, proliferative activity, antibody reaction, etc.

Sample List

Sorting of w/o droplets or GMD encapsulating cells

Microorganisms	Escherichia coli
	Bacillus subtilis
	Mycorrhizal fung
	Actinobacteria
	Aspergillus
	Filamentous fungi
	Yeast
	Oil-producing algae
	Tetrahymena

Environmental samples	Soil
	Seawater and lake water
	Gut
	Microplankton
HTS screening	CHO cells
	Hybridoma
	Cell-free protein synthesis
	GPCR reaction system

Gel Microdrop	Beads
	PEG
	Gelatin
	Low melting point agarose
	Alginic acid
	Collagen

Applications | Droplet