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Cradle

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Design improved proteins in record time with Cradle. Our powerful prediction algorithms and AI design suggestions make it easy for biologists to create exceptional protein structures.

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What is Cradle?

Cradle is a platform that utilizes advanced prediction algorithms and AI design suggestions to assist biologists in rapidly designing enhanced proteins.

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Information

Financing
$5.50M
Revenue
$4.90M
Language
English
Price
Contact for Pricing
Platform
Linux,Windows

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Website traffic

  • Monthly visits
    13.66K
  • Avg visit duration
    00:01:00
  • Bounce rate
    86.87%
  • Unique users
    7.95K
  • Total pages views
    17.53K

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Cradle FQA

  • How does Cradle help biologists?icon plus
  • What are the benefits of using Cradle?icon plus
  • What AI-assisted design tools does Cradle offer?icon plus
  • How does Cradle ensure privacy and security?icon plus
  • Who is the team behind Cradle?icon plus

Cradle Use Cases

Save days of work. Visualize, analyze, and predict candidates’ potential all in one place. In other words, know what works out in the real world – faster.

Improve with every round. Train the Cradle AI with results from your wet lab to build a tailored model that improves candidates with each round of testing.

Low throughput, big results. Use Cradle for any project. No high throughput assay? No problem. Get impressive results between rounds with just a 96 well plate.

Unlimited candidates. Choose what to improve, then generate quality candidates in just one click. Not feeling the results? Click again.

3D structure prediction. Predict the structure of an individual sequence or multimer with AlphaFold 2. Optimized for speed without compromising on accuracy.

Thermostability. Optimize the thermostability of your proteins with models trained on large datasets. Get even better suggestions after a round of experiments in the lab.

Codon optimization. Optimize your protein’s codons for better expression. Go beyond codon usage tables and leverage machine learning models that have seen DNA-Protein-sequence-pairs from your host.

Stability. Future. Design proteins that do better in harsher environments by improving their stability in solvents.

Activity. Future. Want your enzyme to go faster? Improve the rate by which your enzyme performs its reactions.

Specificity. Future. Design proteins that fit like a glove by optimizing their specificity.

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