What base modifications can be incorporated into my custom mRNA or long RNA?

TriLink offers a variety of modified rNTPs suitable for in vitro transcription. We have assessed transcription efficiency based on final product formation of a 1.9 kb transcript with the following triphosphates at 100% substitution using T7 polymerase.

NTP Transcription Efficiency
5-Aminoallyl-CTP (N-1065) +++
2-Amino-ATP (N-1001) +++
5-Br-UTP (N-1054) +
5-Carboxy-CTP (N-1084) ++
5-Carboxy-UTP (N-1091) n/a
5-Carboxymethylester-UTP (N-1096) ++
7-Deaza-ATP (N-1061) ++
5-Formyl-CTP (N-1085) +++
5-Formyl-UTP (N-1090) +
5-Hydroxy-CTP (N-1089) ++
5-Hydroxy-UTP (N-1092) ++
5-Hydroxymethyl-CTP (N-1087) ++
5-Hydroxymethyl-UTP (N-1086) +++
5-Iodo-UTP (N-1012) +
5-Methoxy-CTP (N-1094) ++
5-Methoxy-UTP (N-1093) ++
N6-Methyl-Amino-ATP (N-1083) ++
N6-Methyl-ATP (N-1013) +
5-Methyl-CTP (N-1014) +++
Pseudo-UTP (N-1019) +++
Thieno-CTP (N-1097) n/a
Thieno-GTP (N-1088) ++
1-Thio-ATP (N-8005) +
2-Thio-UTP (N-1032) +++

+++ = Greater than 75% efficiency compared to unmodified NTP
++ = Between 25-75% efficiency compared to unmodified NTP
+ = Less than 25% efficiency compared to unmodified NTP
n/a = No significant product formed with 100% substitution

In all cases, transcription was carried out at 37°C.