Patents by Inventor Safiye Celik

Safiye Celik has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 12657939
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for embedding perturbation data via a machine learning model and filtering, aligning, and aggregating the embeddings to generate a genome-wide perturbation database for real-time generation of perturbation heatmaps. In particular, in one or more embodiments, the disclosed systems can receive a plurality of perturbation images portraying cells from a plurality of wells corresponding to a plurality of cell perturbations. Further, the systems can generate, utilizing a machine learning model, a plurality of well-level image embeddings from the plurality of perturbation images. Moreover, the systems can align, utilizing an alignment model, the plurality of well-level image embeddings to generate aligned well-level image embeddings. Additionally, the systems can aggregate, according to perturbations of one or more perturbation experiments, the well-level image embeddings to generate perturbation-level image embeddings.
    Type: Grant
    Filed: December 1, 2023
    Date of Patent: June 16, 2026
    Assignee: Recursion Pharmaceuticals, Inc.
    Inventors: Marta Marie Fay, August Orvis Allen, Eugene Yin-Chung Ting, Lina Maria Nilsson, Condie Thomas Swallow, II, Michael Haines, Denton Hallar Greenfield, Kristin Ann Clark, Lovina Roundy, Michael Joseph Uloth, Sara Marjean Moore, Shweta Deepchand Bhandare, Ted Douglas Monchamp, Summer Walid Elias, Berton Allen Earnshaw, Mason Lemoyne Victors, Safiye Celik, James Benjamin Taylor, Andrew David Blevins, James Douglas Jensen, Jacob Carter Cooper, Conor Austin Forsman Tillinghast, Seyhmus Guler, Kyle Rollins Hansen, Sarah Jordan DeVore, Tongzhou Shen
  • Patent number: 12651432
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for embedding perturbation data via a machine learning model and filtering, aligning, and aggregating the embeddings to generate a genome-wide perturbation database for real-time generation of perturbation heatmaps. In particular, in one or more embodiments, the disclosed systems can receive a plurality of perturbation images portraying cells from a plurality of wells corresponding to a plurality of cell perturbations. Further, the systems can generate, utilizing a machine learning model, a plurality of well-level image embeddings from the plurality of perturbation images. Moreover, the systems can align, utilizing an alignment model, the plurality of well-level image embeddings to generate aligned well-level image embeddings. Additionally, the systems can aggregate, according to perturbations of one or more perturbation experiments, the well-level image embeddings to generate perturbation-level image embeddings.
    Type: Grant
    Filed: December 1, 2023
    Date of Patent: June 9, 2026
    Assignee: Recursion Pharmaceuticals, Inc.
    Inventors: Marta Marie Fay, August Orvis Allen, Eugene Yin-Chung Ting, Lina Maria Nilsson, Condie Thomas Swallow, II, Michael Haines, Denton Hallar Greenfield, Kristin Ann Clark, Lovina Roundy, Michael Joseph Uloth, Sara Marjean Moore, Shweta Deepchand Bhandare, Ted Douglas Monchamp, Summer Walid Elias, Berton Allen Earnshaw, Mason Lemoyne Victors, Safiye Celik, James Benjamin Taylor, Andrew David Blevins, James Douglas Jensen, Jacob Carter Cooper, Conor Austin Forsman Tillinghast, Seyhmus Guler, Kyle Rollins Hansen, Sarah Jordan DeVore, Tongzhou Shen
  • Publication number: 20250356944
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for deducing information for mechanism of actions (MOAs) utilizing digital signals from cell representations within a shared feature space. In particular, the disclosed systems can deduce (or predict) MOAs by generating MOA representations with corresponding detection confidence scores that indicate whether cell representations in a MOA representation provide a meaningful signal to predict the MOA. Indeed, the disclosed systems can determine a cluster of cell representation embeddings (in the shared feature space) based on annotated cell representation embeddings corresponding to a known MOA to generate an MOA representation. Furthermore, the disclosed systems can utilize MOA representations, within the shared feature space, to predict MOAs for a query cell representation (of a perturbation).
    Type: Application
    Filed: May 14, 2024
    Publication date: November 20, 2025
    Inventors: Alex Fogli Iseppe, Aurora Skye Blucher, Benjamin Marc Feder Fogelson, Jacob Carter Cooper, Kyle Rollins Hansen, Marissa Gerda Saunders, Marta Marie Fay, Nathan Henry Lazar, Rachel Jie Min Ng, Safiye Celik, Thomas Arian Sasani
  • Publication number: 20250342912
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for embedding perturbation data via a machine learning model and filtering, aligning, and aggregating the embeddings to generate a genome-wide perturbation database for real-time generation of perturbation heatmaps. In particular, in one or more embodiments, the disclosed systems can receive a plurality of perturbation images portraying cells from a plurality of wells corresponding to a plurality of cell perturbations. Further, the systems can generate, utilizing a machine learning model, a plurality of well-level image embeddings from the plurality of perturbation images. Moreover, the systems can align, utilizing an alignment model, the plurality of well-level image embeddings to generate aligned well-level image embeddings. Additionally, the systems can aggregate, according to perturbations of one or more perturbation experiments, the well-level image embeddings to generate perturbation-level image embeddings.
    Type: Application
    Filed: July 15, 2025
    Publication date: November 6, 2025
    Inventors: Marta Marie FAY, August Orvis ALLEN, Eugene Yin-Chung TING, Lina Maria NILSSON, Condie Thomas SWALLOW, II, Michael Haines, Denton Hallar GREENFIELD, Kristin Ann CLARK, Lovina ROUNDY, Michael Joseph ULOTH, Sara Marjean MOORE, Shweta Deepchand BHANDARE, Ted Douglas MONCHAMP, Summer Walid ELIAS, Berton Allen EARNSHAW, Mason Lemoyne VICTORS, Safiye CELIK, James Benjamin TAYLOR, Andrew David BLEVINS, James Douglas JENSEN, Jacob Carter COOPER, Conor Austin Forsman TILLINGHAST, Seyhmus GULER, Kyle Rollins HANSEN, Sarah Jordan DEVORE, Tongzhou SHEN
  • Patent number: 12374429
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for embedding perturbation data via a machine learning model and filtering, aligning, and aggregating the embeddings to generate a genome-wide perturbation database for real-time generation of perturbation heatmaps. In particular, in one or more embodiments, the disclosed systems can receive a plurality of perturbation images portraying cells from a plurality of wells corresponding to a plurality of cell perturbations. Further, the systems can generate, utilizing a machine learning model, a plurality of well-level image embeddings from the plurality of perturbation images. Moreover, the systems can align, utilizing an alignment model, the plurality of well-level image embeddings to generate aligned well-level image embeddings. Additionally, the systems can aggregate, according to perturbations of one or more perturbation experiments, the well-level image embeddings to generate perturbation-level image embeddings.
    Type: Grant
    Filed: December 1, 2023
    Date of Patent: July 29, 2025
    Assignee: Recursion Pharmaceuticals, Inc.
    Inventors: Marta Marie Fay, August Orvis Allen, Eugene Yin-Chung Ting, Lina Maria Nilsson, Condie Thomas Swallow, II, Michael Haines, Denton Hallar Greenfield, Kristin Ann Clark, Lovina Roundy, Michael Joseph Uloth, Sara Marjean Moore, Shweta Deepchand Bhandare, Ted Douglas Monchamp, Summer Walid Elias, Berton Allen Earnshaw, Mason Lemoyne Victors, Safiye Celik, James Benjamin Taylor, Andrew David Blevins, James Douglas Jensen, Jacob Carter Cooper, Conor Austin Forsman Tillinghast, Seyhmus Guler, Kyle Rollins Hansen, Sarah Jordan DeVore, Tongzhou Shen
  • Publication number: 20250218538
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for utilizing machine learning and digital embedding processes to generate digital maps of biology and user interfaces for evaluating map efficacy. For example, the disclosed systems can generate a combined phenomic-transcriptomic map from embedding perturbation data via a machine learning model and filtering, aligning, aggregating, and relating the embeddings to generate transcriptomic comparisons. Additionally, the disclosed systems can embed phenomic perturbation data via a machine learning model and filtering, aligning, aggregating, and relating the phenomic perturbation embeddings to generate phenomic perturbation comparisons. Furthermore, the disclosed systems can utilize transcriptomic comparisons determined from aggregated transcriptomic embeddings and phenomic embedding comparisons determined from aggregated phenomic perturbation embeddings to generate combined phenomic-transcriptomic maps of biology.
    Type: Application
    Filed: March 5, 2025
    Publication date: July 3, 2025
    Inventors: Alina SELEGA, Amanda Christine MITCHELL, Benjamin Marc Feder FOGELSON, Berton Allen EARNSHAW, Conor Austin Forsman TILLINGHAST, Denton Hallar GREENFIELD, Emiliano HUESCA, Emily Michelle DARROW, Estrella AGUILERA JIMENEZ, Grant WATSON, Imran Saeedul HAQUE, Jacob Carter COOPER, James Douglas JENSEN, Kelly Anne ZALOCUSKY, Kian Runnels KENYON-DEAN, Kshitij Yogesh GUPTA, Kyle Rollins HANSEN, Lina Maria NILSSON, Marta Marie FAY, Michael HAINES, Nathan Henry LAZAR, Oren Zeev KRAUS, Rebecca Nicole Nix PETERSON, Rosann ROBINSON, Ryan Patrick SMITH, Safiye CELIK, Seyhmus GULER
  • Publication number: 20250201351
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for training and utilizing generative machine learning models to generate embeddings from phenomic images (or other microscopy representations). For example, the disclosed systems can train a generative machine learning model (e.g., a masked autoencoder generative model) to generate predicted (or reconstructed) phenomic images from masked version of ground truth training phenomic images. In some cases, the disclosed systems utilize a momentum-tracking optimizer while reducing a loss of the generative machine learning model to enable efficient training on large scale training image batches. Furthermore, the disclosed systems can utilize Fourier transformation losses with multi-stage weighting to improve the accuracy of the generative machine learning model on the phenomic images during training.
    Type: Application
    Filed: August 23, 2024
    Publication date: June 19, 2025
    Inventors: Oren Zeev KRAUS, Kian Runnels KENYON-DEAN, Mohammadsadegh SABERIAN, Maryam FALLAH, Peter Foster MCLEAN, Jessica Wai Yin LEUNG, Vasudev SHARMA, Ayla Yasmin KHAN, Jaichitra BALAKRISHNAN, Safiye CELIK, Dominique BEAINI, Maciej SYPETKOWSKI, Chi CHENG, Kristen Rose MORSE, Maureen Katherine MAKES, Benjamin John MABEY, Berton Allen EARNSHAW
  • Publication number: 20250174305
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods that implement a compound exploration initiation system. Indeed, in one or more implementations, the disclosed systems identify, from processed biological representations, a predicted biological relationship for an anchor compound or an anchor gene. Further, in one or more implementations, the disclosed systems generate digital text prompts that include text rating instructions for a language machine learning model from the predicted biological relationship. To illustrate, the disclosed systems generate rating metrics according to the text rating instructions utilizing the language machine learning model and combines the rating metrics to generate a program rating for the anchor gene or the anchor compound for initiating one or more compound exploration programs.
    Type: Application
    Filed: November 28, 2023
    Publication date: May 29, 2025
    Inventors: Brittney Mae Vierra, Hayley Jeton Donnella, Marta Marie Fay, Michael Frank Cuccarese, Vijay Shahani, Vivek Jayan, Conor Austin Forsman Tillinghast, Safiye Celik, Abraham Weintraub, Sarah Karbalaei Khani, Gabriela Andrejeva
  • Publication number: 20250095392
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for utilizing machine learning and digital embedding processes to generate digital maps of biology and user interfaces for evaluating map efficacy. In particular, in one or more embodiments, the disclosed systems receive perturbation data for a plurality of perturbation experiment units corresponding to a plurality of perturbation classes. Further, the systems generate, utilizing a machine learning model, a plurality of perturbation experiment unit embeddings from the perturbation data. Additionally, the systems align, utilizing an alignment model, the plurality of perturbation experiment unit embeddings to generate aligned perturbation unit embeddings. Moreover, the systems aggregate the aligned perturbation unit embeddings to generate aggregated embeddings. Furthermore, the systems generate perturbation comparisons utilizing the perturbation-level embeddings.
    Type: Application
    Filed: July 19, 2024
    Publication date: March 20, 2025
    Inventors: Nathan Henry LAZAR, Conor Austin Forsman TILLINGHAST, James Douglas JENSEN, James Benjamin TAYLOR, Berton Allen EARNSHAW, Marta Marie FAY, Renat Nailevich KHALIULLIN, Jacob Carter COOPER, Imran Saeedul HAQUE, Seyhmus GULER, Kyle Rollins HANSEN, Safiye CELIK
  • Publication number: 20250095146
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for utilizing machine learning and digital embedding processes to generate digital maps of biology and user interfaces for evaluating map efficacy. In particular, in one or more embodiments, the disclosed systems receive perturbation data for a plurality of perturbation experiment units corresponding to a plurality of perturbation classes. Further, the systems generate, utilizing a machine learning model, a plurality of perturbation experiment unit embeddings from the perturbation data. Additionally, the systems align, utilizing an alignment model, the plurality of perturbation experiment unit embeddings to generate aligned perturbation unit embeddings. Moreover, the systems aggregate the aligned perturbation unit embeddings to generate aggregated embeddings. Furthermore, the systems generate perturbation comparisons utilizing the perturbation-level embeddings.
    Type: Application
    Filed: July 22, 2024
    Publication date: March 20, 2025
    Inventors: Nathan Henry LAZAR, Conor Austin Forsman TILLINGHAST, James Douglas JENSEN, James Benjamin TAYLOR, Berton Allen EARNSHAW, Marta Marie FAY, Renat Nailevich KHALIULLIN, Jacob Carter COOPER, Imran Saeedul HAQUE, Seyhmus GULER, Kyle Rollins HANSEN, Safiye CELIK
  • Patent number: 12119090
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for training and utilizing generative machine learning models to generate embeddings from phenomic images (or other microscopy representations). For example, the disclosed systems can train a generative machine learning model (e.g., a masked autoencoder generative model) to generate predicted (or reconstructed) phenomic images from masked version of ground truth training phenomic images. In some cases, the disclosed systems utilize a momentum-tracking optimizer while reducing a loss of the generative machine learning model to enable efficient training on large scale training image batches. Furthermore, the disclosed systems can utilize Fourier transformation losses with multi-stage weighting to improve the accuracy of the generative machine learning model on the phenomic images during training.
    Type: Grant
    Filed: December 19, 2023
    Date of Patent: October 15, 2024
    Assignee: Recursion Pharmaceuticals, Inc.
    Inventors: Oren Zeev Kraus, Kian Runnels Kenyon-Dean, Mohammadsadegh Saberian, Maryam Fallah, Peter Foster McLean, Jessica Wai Yin Leung, Vasudev Sharma, Ayla Yasmin Khan, Jaichitra Balakrishnan, Safiye Celik, Dominique Beaini, Maciej Sypetkowski, Chi Cheng, Kristen Rose Morse, Maureen Katherine Makes, Benjamin John Mabey, Berton Allen Earnshaw
  • Patent number: 12119091
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for training and utilizing generative machine learning models to generate embeddings from phenomic images (or other microscopy representations). For example, the disclosed systems can train a generative machine learning model (e.g., a masked autoencoder generative model) to generate predicted (or reconstructed) phenomic images from masked version of ground truth training phenomic images. In some cases, the disclosed systems utilize a momentum-tracking optimizer while reducing a loss of the generative machine learning model to enable efficient training on large scale training image batches. Furthermore, the disclosed systems can utilize Fourier transformation losses with multi-stage weighting to improve the accuracy of the generative machine learning model on the phenomic images during training.
    Type: Grant
    Filed: December 19, 2023
    Date of Patent: October 15, 2024
    Assignee: Recursion Pharmaceuticals, Inc.
    Inventors: Oren Zeev Kraus, Kian Runnels Kenyon-Dean, Mohammadsadegh Saberian, Maryam Fallah, Peter Foster McLean, Jessica Wai Yin Leung, Vasudev Sharma, Ayla Yasmin Khan, Jaichitra Balakrishnan, Safiye Celik, Dominique Beaini, Maciej Sypetkowski, Chi Cheng, Kristen Rose Morse, Maureen Katherine Makes, Benjamin John Mabey, Berton Allen Earnshaw
  • Patent number: 12079992
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for utilizing machine learning and digital embedding processes to generate digital maps of biology and user interfaces for evaluating map efficacy. In particular, in one or more embodiments, the disclosed systems receive perturbation data for a plurality of perturbation experiment units corresponding to a plurality of perturbation classes. Further, the systems generate, utilizing a machine learning model, a plurality of perturbation experiment unit embeddings from the perturbation data. Additionally, the systems align, utilizing an alignment model, the plurality of perturbation experiment unit embeddings to generate aligned perturbation unit embeddings. Moreover, the systems aggregate the aligned perturbation unit embeddings to generate aggregated embeddings. Furthermore, the systems generate perturbation comparisons utilizing the perturbation-level embeddings.
    Type: Grant
    Filed: December 21, 2023
    Date of Patent: September 3, 2024
    Assignee: Recursion Pharmaceuticals, Inc.
    Inventors: Nathan Henry Lazar, Conor Austin Forsman Tillinghast, James Douglas Jensen, James Benjamin Taylor, Berton Allen Earnshaw, Marta Marie Fay, Renat Nailevich Khaliullin, Jacob Carter Cooper, Imran Saeedul Haque, Seyhmus Guler, Kyle Rollins Hansen, Safiye Celik
  • Patent number: 12073638
    Abstract: The present disclosure relates to systems, non-transitory computer-readable media, and methods for utilizing machine learning and digital embedding processes to generate digital maps of biology and user interfaces for evaluating map efficacy. In particular, in one or more embodiments, the disclosed systems receive perturbation data for a plurality of perturbation experiment units corresponding to a plurality of perturbation classes. Further, the systems generate, utilizing a machine learning model, a plurality of perturbation experiment unit embeddings from the perturbation data. Additionally, the systems align, utilizing an alignment model, the plurality of perturbation experiment unit embeddings to generate aligned perturbation unit embeddings. Moreover, the systems aggregate the aligned perturbation unit embeddings to generate aggregated embeddings. Furthermore, the systems generate perturbation comparisons utilizing the perturbation-level embeddings.
    Type: Grant
    Filed: December 21, 2023
    Date of Patent: August 27, 2024
    Assignee: Recursion Pharmaceuticals, Inc.
    Inventors: Nathan Henry Lazar, Conor Austin Forsman Tillinghast, James Douglas Jensen, James Benjamin Taylor, Berton Allen Earnshaw, Marta Marie Fay, Renat Nailevich Khaliullin, Jacob Carter Cooper, Imran Saeedul Haque, Seyhmus Guler, Kyle Rollins Hansen, Safiye Celik