The lambda head-tail joining reaction: Purification, Properties and structure of biologically active heads and tails

Abstract

Procedures were developed to obtain biologically active lambda heads and tails at high purity with 20 to 40% recovery. Free heads, free tails and phage particles differ markedly in stability. Phage are stable in solutions containing Mg 2+ but tails are not. The protein subunits which form the shaft of the tail dissociate in the presence of Mg 2+ and form multisubunit spherical structures. EDTA protects free tails against inactivation but disrupts heads and phage particles. The four carbon diamine, putrescine, stabilizes heads against inactivation; the three and five carbon diamines are less effective. Electron micrographs reveal a new “knob” structure at the distal end of the tail fiber of phage and of free tails. Tails released from EDTA-disrupted phage possess a “head-tail connector”, a structure not present on the tail before its joining with a head.