Which statement best describes the three requirements for a standard curve?

• A. It should connect all data points, be straight, and pass through the origin or intersect an axis
• B. It should pass through the origin only and be curved
• C. It should connect only some data points and be non-linear
• D. It should have a variable slope and not pass through origin

Answer: (A)

In quantitative assays, a standard curve is used to translate signal into concentration, so it should reflect a clear, proportional relationship across the calibration range. That means the curve should connect all the calibration data points to show the consistent trend, be linear so the signal changes in direct proportion to concentration, and have a defined intercept—either passing through the origin if zero concentration yields zero signal after baseline correction, or intersecting the axis to account for the baseline. This setup lets you reliably use the equation of the line (signal = slope × concentration + intercept) to back-calculate unknown concentrations from measured signals. Other descriptions that omit a full set of calibration points, propose a curved relation, or ignore a meaningful intercept would undermine accurate quantification.