Product

Readouts

Sample Viscosity

Sample Stickiness

Binding Kinetics

Applications

Research areas

Engineered Antibodies

Biomolecular Condensates

Membrane Protein

Work areas

Academy

CRO

Drug Discovery & Development

Company

About us Contact us Events

Learn more

Tools & Consumables

Molecular Weight & Size Calculator

Users Opinions

Discovery Call

Use absolute measurements to quantify complex molecular interactions
in any solution.

Increase speed, transparency, applicability and replicability  thanks to absolute measurements.

Learn How the Technology Works

Made by researchers for researchers.

Book your discovery call here

Email*

First name*

Last name*

Add any information you would like us to have ahead

Feel free to express your questions as well.

Thank you! Your submission has been received!

Oops! Something went wrong while submitting the form.

FIDA serves to measure molecular size in solution. It allows to evaluate both structure and function of the protein.

no buffer or concentration constraints.

Quantitative data on complex interactions

Embedded quality control in every measurement

Flexible buffer conditions & minimal sample consumption.

What Does FIDA do?

Evaluates protein structure and function

Fida 1 evaluates both the structure and function of the protein or the particles of interest.

‍

 It measures the molecular interactions and properties of the construct of interest under native conditions, such as serum, plasma, cell lysate or fermentation media.

Provides an absolute size measurement (Rh)

Fida 1 directly measures the hydrodynamic radius of the molecule or construct of interest. With its unmatched sensitivity, it detects size changes of less than 5% in hydrodynamic radius. It has a dynamic size ranging from 0.5 to 500 nm Rh and can detect affinities from pM to mM.

Down to 1%

size change detection

0.5-500nm

Dynamic Range

pM-mM

Affinities

Delivers 10 Essential Biophysical Parameters

FIDA Instruments deliver 10 parameters, including quality control .  In one assay, FIDA generates more quantitative biophysical parameters than any other single instrument.

How does it work?

What is the proof? See literature here:

Biomolecular Condensates

Lipid Nanoparticles

Engineered Antibodies

What do you gain?

More time

less frustrations

Measurements in minutes

No purification needed – high tolerance toward impurities

Embedded quality control saves time otherwise wasted on iterations

Absolute measurements

instead of relative data

Replicable

Precise

Transparent

Efficient sample use

take of the pressure to save samples

40 nL analyte (down to 4 μL)

No purification needed – high tolerance toward impurities

Flexible buffer conditions

Quality test samples in minutes.

“What we value about FIDA is the amount of information we can get from a tiny amount of protein in a single QC run. FIDA technology enables us to understand our proteins better - particularly when they behave in unexpected ways. We chose FIDA because it gives us that vital first result quickly - we don't waste our time optimising an assay that isn't going to work.”

Duncan Smith

LEAD SCIENTIST

Make you complex interactions simple.

“I like the ease of use and the straightforward data analysis and, that experiments can be performed in any type of buffers. We get data, where no other biophysical methods worked before."

Cathrine Birck

HEAD OF INTEGRATED STRUCTURAL BIOLOGY PLATFORM

In solution - native conditions

“FIDA is an in-solution technique, and thus an ideal binding assay for structurally diverse bsAbs because the analysis does not rely on potentially obstructive surface immobilization and hence it is able to perform characterizations that are unbiased by bsAb format and spatial orientation of the binding domains.”

Andreas V. Madsen

PHD STUDENT.

It just works. Even with membrane proteins.

"After thorough comparisons, it was clear that the Fida 1, amongst others, presents unique opportunities in analysis of membrane proteins, which is essential to us."

Svend Kjæer

STP DEPUTY