An integrated systems biology approach establishes arginine biosynthesis as a metabolic weakness in Candida albicans during host infection

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Title: An integrated systems biology approach establishes arginine biosynthesis as a metabolic weakness in Candida albicans during host infection
Category: general
UUID: b41d2b7da8c84d97be7f21b0a376899f

Source URL: https://wsai.iitm.ac.in/preprints/an-integrated-systems-biology-approach-establi...
Parent URL: https://wsai.iitm.ac.in/preprints/
Crawl Time: 2026-03-23T19:07:57+00:00

# An integrated systems biology approach establishes arginine biosynthesis as a metabolic weakness in Candida albicans during host infection

**Source**: https://wsai.iitm.ac.in/preprints/an-integrated-systems-biology-approach-establishes-arginine-biosynthesis-as-a-metabolic-weakness-in-candida-albicans-20/
**Parent**: https://wsai.iitm.ac.in/preprints/

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## An integrated systems biology approach establishes arginine biosynthesis as a metabolic weakness in Candida albicans during host infection

<https://doi.org/10.1101/2025.01.11.632533>

Authors

Shuvechha Chakraborty
,
Indumathi Palanikumar
,
Yash Gune
,
K.V. Venkatesh
,
Karthik Raman
,
Susan Idicula-Thomas

Preprint Server

bioRxiv

Shuvechha Chakraborty, Indumathi Palanikumar, Yash Gune, K.V. Venkatesh, Karthik Raman, Susan Idicula-Thomas, “An integrated systems biology approach establishes arginine biosynthesis as a metabolic weakness in Candida albicans during host infection”

Preprint link: <https://www.biorxiv.org/content/10.1101/2025.01.11.632533v2.abstract>