Find Schools, Start Your Search
Thank you! Your submission has been received!
Oops! Something went wrong while submitting the form.
🔒 Your information is secure and only used to match you with relevant programs.
Let’s break that down. Secondary active transport does not directly hydrolyze ATP. Instead, it harnesses the energy stored in an electrochemical gradient—typically a sodium (Na⁺) or hydrogen (H⁺) gradient—to move another molecule against its concentration gradient. The Longer Explanation: Indirect Use of ATP If secondary active transport doesn’t use ATP directly, where does the energy come from?
Here’s the short answer: However, it indirectly depends on ATP. does secondary active transport use atp
If you’ve ever studied cellular biology, you’ve likely encountered the term secondary active transport . And if you’re like most students, you’ve probably asked yourself: "Wait, does this process use ATP or not?" Let’s break that down