Introduction to Signal Transduction
A signal reaching a cell does nothing until something inside the cell is set in motion. Reception starts when a signal molecule binds a receptor — a protein shaped to recognize that one messenger. Where the receptor sits depends on the signal itself. A messenger that cannot cross the membrane — most peptides and charged molecules — binds a membrane receptor on the cell surface. A messenger that can slip through the lipid bilayer — a small, nonpolar signal like a steroid — passes inside and binds an intracellular receptor in the cytoplasm or nucleus. Either way, binding is the trigger, not the destination.
Binding a receptor starts a relay. This is signal transduction: the receptor changes shape and hands the message to the next molecule, which activates the next, converting one signal into a chain of events that ends in a cellular response — a gene switched on, an enzyme activated, a channel opened. The signal that arrived at the surface is almost never the molecule that carries out the job; a series of relay molecules passes the message along and often amplifies it on the way. Reception, transduction, response — a signal is received, then relayed, then acted on.
Interactive · Signal Transduction
Send a signal in and follow it through. Watch whether it binds a membrane receptor or slips inside to an intracellular one, then trace the relay it triggers — receptor to relay molecules to the cellular response at the end of the chain.
Signal Transduction · Open the full sandbox →The mistakes here all confuse one stage of signaling for another. One is misplacing the receptor — assuming every signal binds at the surface, when a membrane-crossing messenger reaches an intracellular receptor instead (U4-BIO3). Another is collapsing the relay — imagining the signal molecule itself travels in and does the work, when transduction is a chain of distinct relay molecules that pass and amplify the message (U4-BIO4). The last is skipping reception — assuming any signal that reaches a cell gets a response, when only a cell carrying the matching receptor can answer it (U4-BIO1). Every scenario asks you to reason from where the signal is received and how it is relayed to what the cell finally does.
The work
3 ways in · any order
Lesson
Signal Transduction
›
A signal is received when it binds a receptor — at the membrane if it cannot cross, inside the cell if it can — and that binding triggers a relay that changes what the cell does. The lesson walks the ways students misread that: misplacing the receptor, collapsing the transduction relay into a single step, and skipping the response at the end. It closes with a ten-scenario applet that asks you to reason from where a signal is received and how it is relayed to what the cell finally does.
Diagnostic
10-item topic check
›
Ten items on signal transduction — that a signal binds a receptor at the membrane if it cannot cross and inside the cell if it can, so receptor location tracks the signal (U4-BIO3); that binding triggers a relay of distinct molecules rather than the signal itself doing the work (U4-BIO4); and that only a cell carrying the matching receptor responds at all (U4-BIO1). Take it cold to surface which of these are still tangled, or after the lesson to confirm they hold.
Targeted Practice
Drill a single misconception
›
Pick one of the failure modes you missed and drill it on its own. The round is adaptive: two correct in a row clears the misconception and moves you to the next.