Motility and Sensing in Microorganisms on Emiliano Perez Ipiña

Motility and Sensing in Microorganisms on Emiliano Perez Ipiñahttps://your_domain.com/Recent content in Motility and Sensing in Microorganisms on Emiliano Perez IpiñaHugo -- gohugo.ioenemperipi@gmail.com (Emiliano Perez Ipiña)emperipi@gmail.com (Emiliano Perez Ipiña)© 2026 Emiliano Perez IpiñaNavigating multiple gradientshttps://your_domain.com/research/multiple_gradients/Mon, 01 Jan 0001 00:00:00 +0000emperipi@gmail.com (Emiliano Perez Ipiña)https://your_domain.com/research/multiple_gradients/How do cells decide which chemical signal to follow in complex environments? By weighting their movement toward the gradient they can sense most accurately, cells navigate competing cues and find effective paths even when signals conflict or overlap.How Cellular Footprints Guide Migrationhttps://your_domain.com/research/footprints/Mon, 01 Jan 0001 00:00:00 +0000emperipi@gmail.com (Emiliano Perez Ipiña)https://your_domain.com/research/footprints/Migrating cells actively remodel their environment by leaving molecular footprints, which shape both individual and collective cell movement through dynamic feedback.In Search of a Host: How Bacterial Motility Drives Infectionshttps://your_domain.com/research/bacteria/Mon, 01 Jan 0001 00:00:00 +0000emperipi@gmail.com (Emiliano Perez Ipiña)https://your_domain.com/research/bacteria/How do bacteria efficiently find host cells near surfaces? By alternating swimming with brief stops and adhesion, they enhance their ability to explore and interact with the environment during infection.Cell Sensing and Navigation: From Individual Precision to Emergent Collective Behaviorhttps://your_domain.com/research/gradient_sensing/Mon, 01 Jan 0001 00:00:00 +0000emperipi@gmail.com (Emiliano Perez Ipiña)https://your_domain.com/research/gradient_sensing/Eukaryotic cells sense noisy chemical signals in their environment to guide their directional movement.How Physical Confinement Shapes Cancer Cell Migration and Invasionhttps://your_domain.com/research/confinement_channels/Mon, 01 Jan 0001 00:00:00 +0000emperipi@gmail.com (Emiliano Perez Ipiña)https://your_domain.com/research/confinement_channels/Physical barriers like narrow tissue channels can dramatically alter how cancer cells move and break away, revealing key mechanisms that underlie metastatic spread.Emiliano Perez Ipiñahttps://your_domain.com/about/Mon, 01 Jan 0001 00:00:00 +0000emperipi@gmail.com (Emiliano Perez Ipiña)https://your_domain.com/about/