ALaSCA: A novel in silico simulation platform to untangle biological pathway mechanisms, with a case study in Type 1 Diabetes progression

Carla Louw; Nina Truter; Wikus Bergh; Martine van den Heever; Shade Horn; Radouane Oudrhiri; Dawie van Niekerk; Ben Loos; Raminderpal Singh

doi:10.1101/2023.03.16.532913

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ALaSCA: A novel in silico simulation platform to untangle biological pathway mechanisms, with a case study in Type 1 Diabetes progression

Carla Louw, Nina Truter, Wikus Bergh, Martine van den Heever, Shade Horn, Radouane Oudrhiri, Dawie van Niekerk, Ben Loos, Raminderpal Singh

doi: https://doi.org/10.1101/2023.03.16.532913

Carla Louw

1Incubate bio BV, Amsterdam, The Netherlands

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Nina Truter

1Incubate bio BV, Amsterdam, The Netherlands

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Wikus Bergh

1Incubate bio BV, Amsterdam, The Netherlands

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Martine van den Heever

1Incubate bio BV, Amsterdam, The Netherlands

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Shade Horn

1Incubate bio BV, Amsterdam, The Netherlands

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Radouane Oudrhiri

1Incubate bio BV, Amsterdam, The Netherlands

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Dawie van Niekerk

2Department of Biochemistry, Faculty of Science, Stellenbosch University, Stellenbosch, South Africa

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Ben Loos

3Department of Physiology, Faculty of Science, Stellenbosch University, Stellenbosch, South Africa

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Raminderpal Singh

1Incubate bio BV, Amsterdam, The Netherlands

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For correspondence: raminderpal@incubate.bio

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Posted March 20, 2023.

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ALaSCA: A novel in silico simulation platform to untangle biological pathway mechanisms, with a case study in Type 1 Diabetes progression

Carla Louw, Nina Truter, Wikus Bergh, Martine van den Heever, Shade Horn, Radouane Oudrhiri, Dawie van Niekerk, Ben Loos, Raminderpal Singh

bioRxiv 2023.03.16.532913; doi: https://doi.org/10.1101/2023.03.16.532913

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ALaSCA: A novel in silico simulation platform to untangle biological pathway mechanisms, with a case study in Type 1 Diabetes progression

Carla Louw, Nina Truter, Wikus Bergh, Martine van den Heever, Shade Horn, Radouane Oudrhiri, Dawie van Niekerk, Ben Loos, Raminderpal Singh

bioRxiv 2023.03.16.532913; doi: https://doi.org/10.1101/2023.03.16.532913

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