We describe a new technique in protein synthesis that extends the existing repertoire of methods for protein modification: A chemoselective reaction that induces reactivity for a subsequent bioconjugation. An azideâ€modified building block reacts first with an ethynylphosphonite through a Staudingerâ€phosphonite reaction (SPhR) to give an ethynylphosphonamidate. The resulting electronâ€deficient triple bond subsequently undergoes a cysteineâ€selective reaction with proteins or antibodies. We demonstrate that ethynylphosphonamidates display excellent cysteineâ€selective reactivity combined with superior stability of the thiol adducts, when compared to classical maleimide linkages. This turns our technique into a versatile and powerful tool for the facile construction of stable functional protein conjugates.