Greatest Lower Bound Property/Proof 1

Proof
Let $T = \set {x \in \R: -x \in S}$.

By Set of Real Numbers is Bounded Below iff Set of Negatives is Bounded Above:
 * $T$ is bounded above.

Thus by the Least Upper Bound Property, $T$ admits a supremum in $\R$.

From Negative of Supremum is Infimum of Negatives:
 * $\ds -\sup_{x \mathop \in T} x = \map {\inf_{x \mathop \in T} } {-x}$

That is, by definition of $T$:
 * $\ds -\sup_{x \mathop \in T} x = \inf_{x \mathop \in S} x$

and so $S$ admits an infimum in $\R$.