Computational and Systems Biology

Latest articles

1. 1. Biochemistry and Chemical Biology
   2. Computational and Systems Biology

   Squidly: Enzyme Catalytic Residue Prediction Harnessing a Biology-Informed Contrastive Learning Framework

   William JF Rieger, Mikael Boden ... Ariane Mora
2. 1. Biochemistry and Chemical Biology
   2. Computational and Systems Biology

   Investigating the native functions of [NiFe]-carbon monoxide dehydrogenases through genomic context analysis

   Maximilian Böhm, Henrik Land
3. 1. Computational and Systems Biology

   Targeted Computational Design of an Interleukin-7 Superkine with Enhanced Folding Efficiency and Immunotherapeutic Efficacy

   See-Khai Lim, Wen-Ching Lin ... Kurt Yun Mou
4. 1. Computational and Systems Biology

   Generative modeling for RNA splicing prediction and design

   Di Wu, Natalie Maus ... Yoseph Barash
5. 1. Computational and Systems Biology
   2. Neuroscience

   Morphogenesis and morphometry of brain folding patterns across species

   Sifan Yin, Chunzi Liu ... L Mahadevan

   The morphogenesis of brain folding patterns across species is studied by physical gel models, simulations, and a quantitative morphometric analysis.
6. 1. Computational and Systems Biology
   2. Neuroscience

   Predictive modeling of hematoma expansion from non-contrast computed tomography in spontaneous intracerebral hemorrhage patients

   Natasha Ironside, Kareem El Naamani ... VISTA-ICH

   In spontaneous intracerebral hemorrhage patients, features of hematoma expansion can be visualized and predicted from non-contrast computed tomography using transport-based morphometry.
7. 1. Neuroscience
   2. Computational and Systems Biology

   Individuality transfer: Predicting human decision-making across task conditions

   Hiroshi Higashi
8. 1. Computational and Systems Biology
   2. Neuroscience

   Human EEG and artificial neural networks reveal disentangled representations and processing timelines of object real-world size and depth in natural images

   Zitong Lu, Julie Golomb

   Neural and computational evidence reveals that real-world size is a temporally late, semantically grounded, and hierarchically stable dimension of object representation in both human brains and artificial neural networks.
9. 1. Neuroscience
   2. Computational and Systems Biology

   Biologically informed cortical models predict optogenetic perturbations

   Christos Sourmpis, Carl CH Petersen ... Guillaume Bellec
10. 1. Computational and Systems Biology

    A network regularized linear model to infer spatial expression pattern for single cell

    Chaohao Gu, Hu Chen, Zhandong Liu