Henry S A, Keith A D
J Bacteriol. 1971 Apr;106(1):174-82. doi: 10.1128/jb.106.1.174-182.1971.
Dietary saturated fatty acids containing 12- to 18-carbon atoms satisfy growth requirements of Neurospora crassa mutant cel (previously named ol; Perkins et al., reference 11); unsaturated fatty acids are synthesized by direct desaturation when an appropriate saturate is available. Odd-chain saturates, 15 carbons and 17 carbons long, satisfy the requirement, and elaidic acid (18:1 Delta(9)trans) results in slow growth. Oleic acid and other cis-unsaturated fatty acids do not satisfy growth requirements; however, oleic acid plus elaidic acid result in growth at a faster rate than elaidate alone. The use of a spin-label fatty acid reveals that hyphae produced by cel during a slow basal level of growth have lipids that reflect a relatively rigid state of viscosity compared to wild type. cel Supplemented with fatty acids and wild type supplemented in the same way have lipids of the same viscosities as reflected by electron spin resonance.
含有12至18个碳原子的膳食饱和脂肪酸可满足粗糙脉孢菌突变细胞(先前命名为ol;Perkins等人,参考文献11)的生长需求;当有合适的饱和脂肪酸时,不饱和脂肪酸可通过直接去饱和作用合成。奇数链饱和脂肪酸,15个碳和17个碳长,可满足需求,而反油酸(18:1Δ(9)反式)会导致生长缓慢。油酸和其他顺式不饱和脂肪酸不能满足生长需求;然而,油酸加反油酸导致的生长速度比单独使用反油酸时更快。使用自旋标记脂肪酸表明,在缓慢的基础生长水平期间由细胞产生的菌丝体的脂质与野生型相比反映出相对刚性的粘度状态。用脂肪酸补充的细胞和以相同方式补充的野生型具有通过电子自旋共振反映的相同粘度的脂质。