Abstract

The com10 mutant of Haemophilus influenzae binds donor DNA reversibly, but is deficient in uptake. The DNA binding has all the characteristics of interaction with a protein receptor; it is saturable, reversible, and specific. However, binding specificity is 6-fold weaker in com10 than is uptake specificity in wild-type. The binding of small (120 base pairs) and large (14,400 base pairs) DNA molecules were compared. For small molecules, binding data fitted a straight line by Scatchard analysis (Bmax = 4.8 DNA molecules/cell, Kd = 0.5 X 10(-9) M). In contrast, for large DNA molecules, the Scatchard plot was not linear. A high affinity binding (Kd = 0.4 X 10(-12) M) and a lower affinity binding (Kd = 1.2 X 10(-11) M) were found with a total number of 3 molecules bound per cell. In wild-type cells, 3.2 large molecules were taken up per cell, whereas up to 40 small 120-base pair DNA fragments were taken up per cell. Uptake of small DNA molecules followed a Michaelis-Menten function with a Km of 0.5 X 10(-9) M and a maximal initial velocity of 1.5 molecules/cell/min at room temperature. For large DNA molecules, maximal initial velocity was approximately 2 molecules/cell/min at room temperature. The analysis of the binding and uptake data suggest to us that a receptor or a receptor complex is responsible for the uptake of either a single large DNA molecule or, successively, a number of small DNA molecules.

Highlights

  • The corn10 mutant oHf aernophilus influenzae binds 11-basepair sequence has been shown to be involved in donor DNA reversibly, but is deficient in uptake

  • Binding of small (120 base pairs) and large (14,400 The kinetics of DNA uptake has been analyzed in the past base pairs) DNA molecules were compared

  • We have shown that small and large DNA moleculescompete for each other's uptake

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Summary

From the Department of

The corn mutant oHf aernophilus influenzae binds 11-basepair (bp’) sequence has been shown to be involved in donor DNA reversibly, but is deficient in uptake. Recent evidence suggests that entry of donor DNA into thecell occurs in two steps: ( a )uptake of DNA which is thesummation of its binding and internalization into small vesicles at the surface of the cell (the transformasomes), and ( b )translocation into the cytoplasm where recombination with the host chromosome occurs (see Fig. 1 and Ref. 3 for a review). Further support for this pathway has come from the analysis of transformation mutants [4,5,6,7]. Present address: INSERM U99, Hopital Henri Mondor 94010, Creteil, France

RESULTS
Wng internalization transbFceactiQonnbination
DISCUSSION

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