Poster presentation
219
RIBOSOME-INACTIVATED PROTEINS (RIPS) OF THE BLACK
ELDER Sambucus nigra
Kh.T. Agzamkhuzhaeva, Yu.I. Oshchepkova*
A.S. Sadykov Institute of Bioorganic Chemistry Academy of Sciences of the Republic of
Uzbekistan, *
e-mail: joshepkova05@rambler.ru
Ribosome-inactivating proteins (RIPs) belong to a class of enzymes found in plants,
fungi, algae, and bacteria. RIPs exhibit N-β-glycosylase rRNA activity, which leads to
cleavage of an adenine residue in the conserved 28S rRNA site. Cleavage of this single
N-glycosidic bond is irreversible and interferes with association between elongation
factors and the ribosome, causing inhibition of protein synthesis. This inactivation
occurs by removing a specific adenine residue from the highly conserved (sarcin/ricin)
loop of large ribosomal RNA.
Sambucus,
belonging to the Adoxaceae family and native
to Europe, Asia, America and Africa, contains a complex mixture of different types of
RIPs and related lectins.
The presence of RIP and lectins
was studied mainly in
Sambucus ebulus L.
(dwarf elderberry),
Sambucus nigra L.
(European elderberry),
Sambucus sieboldiana Blume ex Graebn.
(Japanese elder) and
Sambucus racemosa L.
(red elder).
The aim of this work is to study the composition of ribosome-inactivating proteins
from the bark and berries of the black elderberry
Sambucus nigra L
.,
growing on the
territory of the Republic of Uzbekistan.
The composition of ribosome-inactivating proteins in the bark and berries of black
elderberry
Sambucus nigra L
., collected in the Botanical
Garden of the Republic of
Uzbekistan, was studied. To identify the isolated compounds on a Bruker MicroFlex
spectrometer, a mass spectral MALDI-TOF of the protein composition obtained from
the bark was carried out and proteins were found in the mass range of 61–63.0 kDa,
corresponding in mass to RIP-2. The repeated mass spectral MALDI-TOF showed that
incubation with DTT (50 mM) leads to the disappearance of the signal
in the mass range
of 61-63.0 kDa and an increase in the signal in the range of 30-32 kDa, which
corresponds to the breakdown of RIP-2 into two subunits and indicates the disulfide
nature of the isolated RIPs. According to HPLC-MS/MS sequencing, the presence of 9
RIP-2 was found in the bark sample. Based on the obtained amino acid sequences using
the CLUSTAL O (1.2.4) program, the amino acid sequence of the identified type 2 RIPs
was compared and similar and conserved
residues were identified, which will further
help identify new RIPs. In the course of the studies,
the tryptic peptide
LSLVVLQMVSEAAR containing the RIP active site motif (EAAR) was identified
with a high degree of probability. Mass spectral data on this fragment will allow further
identification of other RIP-1/2 from other samples of natural origin. 2 RIPs were
isolated
from berries, one of which is in a reduced form containing one chain.
Establishing the amino acid sequence in the isolated RIP from black elderberries with a
molecular mass of 62337 Da confirmed our hypothesis of identification by the tryptic
peptide containing the RIP active site (EAAR).
Thus, in the course of the studies, a tryptic
peptide containing the RIP active center motif (EAAR) was identified with a high degree of
probability. Mass spectral data on this fragment will allow further
identification of other RIP-
1/2 from other samples of natural origin. The obtained data of De novo sequencing of the
LSLVVLQMVSEAAR peptide will allow identification of RIP from other sources.