Camelina sativa L. Crantz (large‐seeded false flax) is a promising oilseed crop for the production of edible oil and biodiesel. An ethyl methanesulfonate (EMS) mutant of C. sativa was identified that lacked seed coat mucilage (SCM) using Ruthenium Red (RR) colorimetric staining. Compared with wild‐type (WT) plants, the mucilage‐defect mutant line (Cs98) had smaller seeds and seeds with significantly less SCM, but exhibited significantly taller plant height. The seed mass and oil content of the seeds of Cs98 were significantly lower than those of WT plants. However, the seeds of Cs98 had significantly higher crude protein and starch contents, but a significantly lower neutral detergent‐soluble fiber (NDSF) fraction (pectin) content. Although Cs98 seed contained significantly higher mineral contents for various macro‐ and microminerals (e.g., Mg, S, Al, Cu, Mn, Fe, and Zn), these large differences did not prevent the Cs98 seed biodiesel from passing all American Society for Testing and Materials (ASTM) standards for macro‐ and micromineral content and viscosity, pH, and turbidity. Notably, the oil and biodiesel derived from Cs98 had significantly reduced viscosity compared with WT. Water washes of oil derived from WT and Cs98 seed confirmed that the Cs98 contained only 57% of the mucilage content of the WT oil washes. These significantly lower pectic residues are expected to improve the flow characteristics of the resultant oil and require less washing during biodiesel production.