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005 20200419055522.7
006 m o d
007 cr cnu---unuuu
008 171108s2018 sz a o 001 0 eng d
015 GBB953107|2bnb
016 7 019301978|2Uk
019 994639635|a994786290
020 9783319656397|q(electronic book)
020 3319656392|q(electronic book)
020 |z9783319656380|q(print)
020 |z3319656384|q(print)
024 7 10.1007/978-3-319-65639-7|2doi
035 (OCoLC)1010748198|z(OCoLC)994639635|z(OCoLC)994786290
037 com.springer.onix.9783319656397|bSpringer Nature
040 GW5XE|beng|erda|epn|cGW5XE|dYDX|dBTCTA|dBDX|dVLB|dOCLCF
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049 STJJ
050 4 QD474|b.R67 2018eb
060 4 2018 D-600
060 4 QU 55
082 04 541/.2242|223
245 00 Self-assembled molecules - new kind of protein ligands :
|bsupramolecular ligands /|cIrena Roterman, Leszek
Konieczny, editors.
264 1 Cham, Switzerland :|bSpringer Open,|c2018.
264 4 |c©2018
300 1 online resource (xii, 136 pages) :|billustrations
336 text|btxt|2rdacontent
337 computer|bc|2rdamedia
338 online resource|bcr|2rdacarrier
500 Includes index.
505 0 Supramolecular systems as protein ligands --
Supramolecular Congo Red as Specific Ligand of Antibodies
Engaged in Immune Complex -- Protein Conditioning for
Binding Congo Red and Other Supramolecular Ligands --
Metal Ions Introduced to Proteins by Supramolecular
Ligands -- Possible Mechanism of Amyloidogenesis of V
Domains -- Supramolecular Structures as Carrier Systems
Enabling the Use of Metal Ions in Antibacterial Therapy --
Congo Red Interactions with Single-Walled Carbon
Nanotubes.
506 Open access.|5GW5XE
520 This book is an open access under a CC BY license. The
subject of this book relates to protein ligands with
particular structural and complexation properties. They
are composed of self-assembled molecules, capable of
penetrating as a unit into proteins outside the binding
site. The ribbon-like supramolecular system only permits
the penetration of self-assembled molecules into the
protein-body and formation of stable complexes.
Supramolecular Congo red and similar compounds fit these
requirements. Destabilized protein fragments enable the
penetration of such ligands, with susceptibility to
supramolecular ligand binding often associated with
protein function. As a result, complexation modifies their
functional effects. The activity of enzymes is inhibited
by arresting them in the complexed state, but "naturally
irreversible" complexation as in the case of immune
complexation, is enhanced instead. This property offers
many attractive possibilities of using supramolecular
ligands as described in this book.
588 0 Print version record.
590 SpringerLink|bSpringer Nature Open Access eBooks
650 0 Ligands.
650 0 Protein binding.
650 0 Biochemistry.
650 7 Biochemistry.|2fast|0(OCoLC)fst00831961
650 7 Ligands.|2fast|0(OCoLC)fst00998466
650 7 Protein binding.|2fast|0(OCoLC)fst01079673
650 12 Carrier Proteins.
650 22 Congo Red.
650 22 Ligands.
650 22 Models, Molecular.
650 22 Coloring Agents.
700 1 Roterman, Irena,|eeditor.
700 1 Konieczny, Leszek,|eeditor.
776 08 |iPrint version:|tSelf-assembled molecules - new kind of
protein ligands.|d[S.l.] : Springer Open, 2018|z3319656384
|w(DLC) 2017953533|w(OCoLC)994786290
914 on1010748198
994 92|bSTJ
