1 on sensitivity to the ribotoxins sarcin and
pokeweed antiviral protein and on the binding of EF-G*GT
2 Gelonin,
pokeweed antiviral protein,
and ricin, previously descri
3 covalent modification with either sarcin or
pokeweed antiviral protein did not affect factor-indepen
4 Pokeweed antiviral protein II (PAPII), a 30 kDa protein
5 ome inactivating proteins (RIPs) like ricin,
pokeweed antiviral protein (
PAP) and Shiga-like toxins 1
6 Pokeweed antiviral protein (
PAP) and the A-chain of rici
7 Ricin toxin A-chain (RTA) and
pokeweed antiviral protein (
PAP) catalyze the release of
8 Pokeweed antiviral protein (
PAP) from Phytolacca america
9 Pokeweed antiviral protein (
PAP) is a plant-derived, hig
10 Pokeweed antiviral protein (
PAP) is a ribosome-inactivat
11 Pokeweed antiviral protein (
PAP) is a ribosome-inactivat
12 Pokeweed antiviral protein (
PAP) is a ribosome-inactivat
13 Pokeweed antiviral protein (
PAP) is a single-chain ribos
14 urally occurring ribosome inhibitory protein
pokeweed antiviral protein (
PAP) is an N-glycosidase tha
15 Pokeweed antiviral protein (
PAP) produced by pokeweed pl
16 Pokeweed antiviral protein (
PAP), a 29-kD protein isolat
17 Pokeweed antiviral protein (
PAP), a 29-kDa protein isola
18 Pokeweed antiviral protein (
PAP), a 29-kDa ribosome-inac
19 Pokeweed antiviral protein (
PAP), a ribosome-inactivatin
20 Pokeweed antiviral protein (
PAP), a single chain ribosom
21 Here, we present evidence that
pokeweed antiviral protein (
PAP), a single-chain ribosom
22 Pokeweed antiviral protein (
PAP), a single-chain RIP fro
23 tative DNase activity of two RIPs, ricin and
pokeweed antiviral protein (
PAP), and show that, in both
24 A mutant of
pokeweed antiviral protein,
PAPn, which has a single ami
25 ed amino acid sequence is 31.7% identical to
pokeweed antiviral protein RIP-C (overall similarity 66.