Diastereomeric Right‐ and Left‐Handed Helical Structures with Fourteen (<i>R</i>)‐Chiral Centers

Eto, Ryo; Oba, Makoto; Ueda, Atsushi; Uku, Tsubasa; Doi, Mitsunobu; Matsuo, Yosuke; Tanaka, Takashi; Demizu, Yosuke; Kurihara, Masaaki; Tanaka, Masakazu

doi:10.1002/chem.201705306

Cited by 10 publications

(5 citation statements)

References 54 publications

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“…The left-handedness of the helix was exclusively controlled by the chiral centers at the side-chain β-carbons of cyclopropane. These results are in contrast to those of the uncontrolled helical screw direction of ( R , R )-Ac 4 c 3BD , ( R , R )-Ab 5,6= c, and ( R , R )-Ac 6 c 35 dBu homopeptides but are in accordance with the one-handed helical screw of ( S , S )-Ac 5 c dOM homopeptides …”

contrasting

confidence: 77%

“…Homopeptides composed of a chiral five-membered ring dAA (S,S)-Ac 5 c dOM with two side chain chiral centers preferentially formed left-handed (M) helical structures without an α-chiral center. 7 Contrary to the one-handed helical structure of (S,S)-Ac 5 c dOM homopeptides, the homopeptides composed of a five,six-membered bicyclic ring dAA (R,R)-Ab 5,6= c with two side-chain chiral centers, 8 a fourmembered ring dAA (R,R)-Ac 4 c 3BD with a chiral acetal moiety, 9 or a six-membered ring dAA (R,R)-Ac 6 c 35dBu with two chiral acetal moieties 10 showed uncontrolled right-handed (P) and left-handed (M) helical-screw structures.…”

mentioning

confidence: 99%

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Left-Handed Helix of Three-Membered Ring Amino Acid Homopeptide Interrupted by an N–H···Ethereal O-Type Hydrogen Bond

et al. 2018

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A chiral three-membered ring C α,α -disubstituted α-amino acid (R,R)-Ac 3 c dMOM , in which the α-carbon is not a chiral center, but two side chain β-carbons are chiral centers, was synthesized from dimethyl L-(+)-tartrate, and its homopeptides were prepared. X-ray crystallographic analysis of (R,R)-Ac 3 c dMOM pentapeptide showed bent left-handed (M) 3 10 -helical structures with an unusual intramolecular hydrogen bond of the N−H•••O (ethereal) type. The lefthandedness of the bent helices was exclusively controlled by the side-chain β-carbon chiral centers.

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confidence: 77%

mentioning

confidence: 99%

Left-Handed Helix of Three-Membered Ring Amino Acid Homopeptide Interrupted by an N–H···Ethereal O-Type Hydrogen Bond

et al. 2018

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“…The incorporation of nonproteinogenic amino acids such as α,α-disubstituted amino acids (dAAs) is one molecular strategy for creating and stabilizing helical structures. − In particular, α-aminoisobutyric acid (Aib), the simplest dAA, is often utilized as a helical inducer. Peptides bearing Aib favor the formation of α- and 3 10 -helices because of the steric repulsion of the α,α-dimethyl groups. − Kodama and coworkers have demonstrated the importance of Aib residues in CPPs by replacing the Aib residues of the peptide derived from trichorovin-XIIa, a class of peptaibols, with Ala residues; Ala replacement of Aib diminished the helicity of the peptide, leading to lower cell-penetrating ability.…”

Section: Introductionmentioning

confidence: 99%

Artificial Cell-Penetrating Peptide Containing Periodic α-Aminoisobutyric Acid with Long-Term Internalization Efficiency in Human and Plant Cells

Terada

Gimenez-Dejoz

et al. 2020

ACS Biomater. Sci. Eng.

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Cell-penetrating peptides (CPPs) have been widely utilized as efficient molecular tools for the delivery of bioactive cargoes such as peptides, proteins, and genetic material. However, to improve their versatility as tools in biological environments, the resistance of CPPs to enzymatic degradation and their structural stability must be improved to achieve long-term efficacy. Here we designed and synthesized novel artificial CPPs, poly(LysAibXaa), containing periodic α-aminoisobutyric acid (Aib) and L-lysine by chemoenzymatic polymerization. Poly(LysAibAla) tended to form 3 10 -and α-helical structures under the amphiphilic cell-membrane-mimicking environment. Poly(LysAibXaa) exhibited long-term internalization and thus high accumulation in live cells, which is attributed to the improvement in the resistance to proteolytic digestion as a result of the incorporation of Aib residues into the peptide backbone. We presented a simple molecular design and synthesis of efficient CPPs applicable to both human and plant cells with long-term stability and negligible cytotoxicity.

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“…The incorporation of α,α-disubstituted α-amino acids (dAAs), such as α-aminoisobutyric acid (Aib), is a useful method for inducing and stabilizing helical conformations of peptides. − It has been reported that amphiphilic cell-penetrating peptides (CPPs) containing dAAs form stable helices, which enhance peptide uptake efficiency. − We have also reported that Aib-containing CPPs adopting helical conformations exhibit long-term internalization into both mammalian and plant cells with higher efficiency than conventional CPPs …”

Section: Introductionmentioning

confidence: 99%

Synthetic Mitochondria-Targeting Peptides Incorporating α-Aminoisobutyric Acid with a Stable Amphiphilic Helix Conformation in Plant Cells

Terada

Gimenez-Dejoz

Kurita

et al. 2021

ACS Biomater. Sci. Eng.

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In the genetic modification of plant cells, the mitochondrion is an important target in addition to the nucleus and plastid. However, gene delivery into the mitochondria of plant cells has yet to be established by conventional methods, such as particle bombardment, because of the small size and high mobility of mitochondria. To develop an efficient mitochondria-targeting signal (MTS) that functions in plant cells, we designed the artificial peptide (LURL)3 and its analogues, which periodically feature hydrophobic α-aminoisobutyric acid (Aib, U) and cationic arginine (R), considering the consensus motif recognized by the mitochondrial import receptor Tom20. Circular dichroism measurements and molecular dynamics simulation studies revealed that (LURL)3 had a propensity to form a stable α-helix in 0.1 M phosphate buffer solution containing 1.0 wt % sodium dodecyl sulfate. After internalization into plant cells via particle bombardment, (LURL)3 revealed highly selective accumulation in the mitochondria, whereas its analogue (LARL)3 was predominantly located in the vacuoles in addition to mitochondria. The high selectivity of (LURL)3 can be attributed to the incorporation of Aib, which promotes the hydrophobic interaction between the MTS and Tom20 by increasing the hydrophobicity and helicity of (LURL)3. The present study provided a prospective mitochondrial targeting system using the simple design of artificial peptides.

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Diastereomeric Right‐ and Left‐Handed Helical Structures with Fourteen (R)‐Chiral Centers

Cited by 10 publications

References 54 publications

Left-Handed Helix of Three-Membered Ring Amino Acid Homopeptide Interrupted by an N–H···Ethereal O-Type Hydrogen Bond

Left-Handed Helix of Three-Membered Ring Amino Acid Homopeptide Interrupted by an N–H···Ethereal O-Type Hydrogen Bond

Artificial Cell-Penetrating Peptide Containing Periodic α-Aminoisobutyric Acid with Long-Term Internalization Efficiency in Human and Plant Cells

Synthetic Mitochondria-Targeting Peptides Incorporating α-Aminoisobutyric Acid with a Stable Amphiphilic Helix Conformation in Plant Cells

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