Discovery of the elusive radical NCO and confirmation of H2NCO+ in space

TL;DR

This study reports the first detection of the radical NCO and the ion H2NCO+ in space, confirming their roles in prebiotic chemistry and the formation of peptide backbone structures in interstellar molecules.

Contribution

It provides the first observational evidence of NCO and H2NCO+ in space, supporting chemical models of prebiotic molecule formation.

Findings

NCO detected in dense core L483 with a column density of 2.2e12 cm-2

H2NCO+ identified, confirming its presence in space

Abundances of related molecules relative to HNCO established

Abstract

The isocyanate radical (NCO) is the simplest molecule containing the backbone of the peptide bond, C(=O)-N. This bond has a prebiotic interest since is the one linking two amino acids to form large chains of proteins. It is also present in some organic molecules observed in space such as HNCO, NH2CHO and CH3NCO. In this letter we report the first detection in space of NCO towards the dense core L483. We also report the identification of the ion H2NCO+, definitively confirming its presence in space, and observations of HNCO, HOCN, and HCNO in the same source. For NCO, we derive a column density of 2.2e12 cm-2, which means that it is only about 5 times less abundant than HNCO. We find that H2NCO+, HOCN and HCNO have abundances relative to HNCO of 1/400, 1/80, and 1/160, respectively. Both NCO and H2NCO+ are involved in the production of HNCO and several of its isomers. We have updated our previous chemical models involving NCO and the production of the CHNO isomers. Taking into account the uncertainties in the model, the observed abundances are reproduced relatively well. Indeed, the detection of NCO and H2NCO+ in L483 supports the chemical pathways to the formation of the detected CHNO isomers. Sensitive observations of NCO in sources where other molecules containing the C(=O)-N subunit have been detected could help in elucidating its role in prebiotic chemistry in space.