Nucleotide, nucleoside and base nutritional requirements of the mosquito Culex pipiens

Abstract

Nucleic acid subcomponents needed to satisfy the dietary nucleic acid requirement of Culex pipiens were studied in growth experiments using synthetic media in which nucleosides, bases and alternative nucleotides were variously substituted in mixtures of 3 nucleotides (adenylic acid, thymidylic acid, and either cytidylic or uridylic acid) previously shown to be adequate replacements for whole nucleic acid. Any or all 3 nucleotides could be replaced by corresponding nucleosides without adverse effect, except that adenosine substitution moderately delayed pupation. All base substitutions were unsatisfactory: substitution of thymine for thymidylic acid allowed development to the adult stage but at a greatly reduced rate; single substitution of adenine, cytosine or uracil for the corresponding nucleotides allowed scarcely more development than in the total absence of nucleic acid derivatives. Inosinic acid or inosine were adequate substitutes for adenylic acid, but orotic acid or orotidine were ineffective in place of the pyrimidine ribonucleotides, cytidylic or uridylic acids. Deoxyadenylic acid could take the place of adenylic acid, though inefficiently, but deoxycytidylic and deoxyuridylic acids were very poor replacements for the corresponding ribonucleotides. The minimal required nucleic acid derivatives thus appear to be a purine ribonucleotide (adenylic or inosinic acids), a pyrimidine ribonucleoside (either uridine or cytidine), and the pyrimidine deoxyribonucleoside, thymidine.