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Search for "chirality" in Full Text gives 300 result(s) in Beilstein Journal of Organic Chemistry. Showing first 200.
A new oxidatively stable ligand for the chiral functionalization of amino acids in Ni(II)–Schiff base complexes
Beilstein J. Org. Chem. 2023, 19, 566–574, doi:10.3762/bjoc.19.41
- derived from glycine Schiff bases containing a source of chirality is the most convenient and widely used template for modification of the glycine fragment under mild conditions. The template can be easily obtained via self-assembly of the starting components in the presence of metal ions (commonly Ni(II
- ]. Functionalization of the phenyl ring in the benzophenone gives rise to an additional axial chirality (L3), thus improving stereoselectivity observed at the removed stereocenter [24][25]. Replacing N-benzylproline for 2,7-dihydro-1H-azepine (L5) allowed obtaining a new tridentate ligand with chemically stable axial
- chirality which exhibits no racemization under action of strong bases [29]. The chiral N–H-containing rimantadine-based ligand (L6) is highly lipophilic and it was successfully used for the kinetic resolution of unprotected racemic amino acids [30]. The examples mentioned above show that the metal–Schiff
Recommendations for performing measurements of apparent equilibrium constants of enzyme-catalyzed reactions and for reporting the results of these measurements
Beilstein J. Org. Chem. 2023, 19, 303–316, doi:10.3762/bjoc.19.26
- literature to obtain the structure(s) of the substances used as well as avoid possible confusion regarding substance identification. A combination of the aforementioned methods is recommended. If substances have chirality, attention to which chiral forms are present is also required. The enzyme(s) used in a
Germacrene B – a central intermediate in sesquiterpene biosynthesis
Beilstein J. Org. Chem. 2023, 19, 186–203, doi:10.3762/bjoc.19.18
- photochemical E/Z isomerisation to 13 prior to [2 + 2] cycloaddition. Further photochemical products from 1 include 5, 15 that may be formed through a biradical mechanism, and rearranged 16 [51]. Germacrene B (1) has planar chirality (Scheme 4D), but recovery of the starting material from an incomplete
- ) Cyclisation of 1 to 9 and 10 upon treatment with alumina, B) conversion into (rac)-11 by treatment with diluted sulfuric acid in acetone, C) photochemical products from 1, and D) planar chirality of 1 and its derivative 17. Possible cyclisation reactions upon reprotonation of 1. A) Cyclisations to eudesmane
Nostochopcerol, a new antibacterial monoacylglycerol from the edible cyanobacterium Nostochopsis lobatus
Beilstein J. Org. Chem. 2023, 19, 133–138, doi:10.3762/bjoc.19.13
- , Japan 10.3762/bjoc.19.13 Abstract A new antibacterial 3-monoacyl-sn-glycerol, nostochopcerol (1), was isolated from a cultured algal mass of the edible cyanobacterium Nostochopsis lobatus MAC0804NAN. The structure of compound 1 was established by the analysis of NMR and MS data while its chirality was
Redox-active molecules as organocatalysts for selective oxidative transformations – an unperceived organocatalysis field
Beilstein J. Org. Chem. 2022, 18, 1672–1695, doi:10.3762/bjoc.18.179
- play an important role in redox-neutral asymmetric organocatalysis by forming nucleophilic enamine intermediates or electrophilic iminium cations. The same principles are used in oxidative transformations, where an amine can play the role of chirality source and the activator of substrate for oxidation
- organocatalyst forms hydrogen bonds with both H2O2 and cyclic ketones [66]. A chiral Brønsted acid was used as chirality source and activator of H2O2 for an asymmetric sulfoxidation reaction [67] (Scheme 4B). It is generally accepted that in asymmetric Brønsted acid catalysis the activation of both the
Design, synthesis, and evaluation of chiral thiophosphorus acids as organocatalysts
Beilstein J. Org. Chem. 2022, 18, 1471–1478, doi:10.3762/bjoc.18.154
- time. Consequently, the availability of each CPA enantiomer requires significant synthetic efforts from the diphenol precursor. In order to address these issues, we became interested in exploring C1-symmetrical CPAs, in which the chirality resides exclusively at the phosphorus atom. For this
- exploratory work, thiophosphorus acids were chosen due to their appropriate acidity and intrinsic chirality. Thiophosphorus acids undergo a tautomeric equilibrium between the thiolic and the thionic forms [22] (Scheme 1). If the substituents R1 and R2 are different, the phosphorus atom is always chiral
- straightforward and accomplished late-stage, to avoid carrying the chirality through multiple steps and the possible erosion of enantiomeric excesses. Preferably, both enantiomers of the CPA should also be available and immobilization of the CPA on a solid support should be possible. In this paper, we report our
Oxa-Michael-initiated cascade reactions of levoglucosenone
Beilstein J. Org. Chem. 2022, 18, 1457–1462, doi:10.3762/bjoc.18.151
- derived from biomass pyrolysis, due to its reactive functionality, and the chirality which derives from glucose [4][5][6][7]. Reactions of 1 where the α,β-unsaturated ketone participates as an electrophile are usually completely diastereoselective, as the approach of the nucleophile is controlled by the
Reductive opening of a cyclopropane ring in the Ni(II) coordination environment: a route to functionalized dehydroalanine and cysteine derivatives
Beilstein J. Org. Chem. 2022, 18, 1166–1176, doi:10.3762/bjoc.18.121
- ) coordination environment in the form of a Schiff base is considered as a route to electrochemical broadening of the donor–acceptor cyclopropane concept in combination with chirality induction in the targeted products. A tendency to the reductive ring-opening and the follow-up reaction paths of thus formed
- -activity and chirality provided by the Ni–Schiff base template, supported with the protection from redox-destruction of the amino acid skeleton, makes the suggested approach a convenient route to various types of non-proteinogenic amino acids [9][10][12][13]. Recently, several practical approaches to α,α
- cysteine derivatives in practical yields and with high stereoselectivity at the removed β-stereocenter. The developed one-pot multistep procedure highlights new perspectives provided by combination of electrochemically broaden DA-cyclopropane concept and chirality induction within a metal coordination
First series of N-alkylamino peptoid homooligomers: solution phase synthesis and conformational investigation
Beilstein J. Org. Chem. 2022, 18, 845–854, doi:10.3762/bjoc.18.85
- studied now in more detail. The crystal structure of dimer 2 also reveals the presence of intermolecular hydrogen bonding networks that could potentially be found in solution. It is also interesting to note that despite the lack of chirality, the two residues of peptoid 2 adopt the same conformation in
- are now focused on introducing chirality, which will provide a better understanding of their structural properties, including their potential to form PPII-like helices. (A) Summary of the main side chains exerting significant steric and/or electronic effects and influencing the amide conformation of
Thiophene/selenophene-based S-shaped double helicenes: regioselective synthesis and structures
Beilstein J. Org. Chem. 2022, 18, 809–817, doi:10.3762/bjoc.18.81
- ; selenophene; thiophene; Introduction Given their esthetically pleasing helical structures, inherent helical chirality, and extended π-conjugation, helicenes have attracted extensive research attention. Helicenes are generally divided into carbohelicenes and heterohelicenes. The rapid development of
BINOL as a chiral element in mechanically interlocked molecules
Beilstein J. Org. Chem. 2022, 18, 508–523, doi:10.3762/bjoc.18.53
- stereoselective chemosensing. Given the growing importance of mechanically interlocked molecules and the key advantages of the privileged chiral BINOL backbone, we believe that this research area will continue to grow and deliver many useful applications in the future. Keywords: axial chirality; BINOL; catenanes
- noncovalent interactions between the subcomponents, MIMs have established themselves as an important subdiscipline of supramolecular chemistry. The introduction of chirality into MIMs is of high interest in order to develop applications in which the chirality can be exploited, e.g., in enantioselective
- chemosensing or in asymmetric catalysis. The selection of suitable stereogenic elements is of great importance [26][27][28]. The most straightforward way to create a chiral rotaxane or catenane is the introduction of classical chiral elements, such molecular parts with axial chirality, point chirality, or
Bioinspired tetraamino-bisthiourea chiral macrocycles in catalyzing decarboxylative Mannich reactions
Beilstein J. Org. Chem. 2022, 18, 486–496, doi:10.3762/bjoc.18.51
- linking components to afford Lewis base sites and also for introduction of chirality. Different alkyl substituents including methyl, n-propyl, isopropyl, and 3-pentyl were incorporated in order to tune the size and steric effect of the macrocyclic cavity and thus to enable diverse cavity environments
The asymmetric Henry reaction as synthetic tool for the preparation of the drugs linezolid and rivaroxaban
Beilstein J. Org. Chem. 2022, 18, 438–445, doi:10.3762/bjoc.18.46
- antibiotic linezolid (1) and the anticoagulant rivaroxaban (2) – belong among modern pharmaceutics, which contain an oxazolidine-2-one moiety bearing a stereogenic center. The chirality of these drugs is a fundamental attribute for their biological activity. Herein, one of the efficient asymmetric syntheses
- oral anticoagulants). All these human drugs can be considered as modern medicaments, which were developed and approved during the past three decades [8]. The chirality of the mentioned oxazolidine-2-ones is a crucial factor for their therapeutic effect, because only a single enantiomer affords the
- diastereoselectivity. All nitroaldol products 22–26 were obtained with ee (or de) values in the range of 83–91%. This observation was confirmed in a separate experiment, where the aldehyde 16 bearing the substituent R2 = ᴅ-menthyl (opposite sense of chirality) was applied. This substrate was transformed to the
New advances in asymmetric organocatalysis
Beilstein J. Org. Chem. 2022, 18, 240–242, doi:10.3762/bjoc.18.28
- Waser employed an isothiourea catalyst for esterification-mediated kinetic resolution of paracyclophane derivatives with planar chirality [19]. Parida and Pan showed that a Michael reaction coupled with an acyl transfer reaction between α-nitroketones and 4-arylidenepyrrolidine-2,3-diones can produce a
Synthesis and late stage modifications of Cyl derivatives
Beilstein J. Org. Chem. 2022, 18, 174–181, doi:10.3762/bjoc.18.19
- chirality transfer. With this positive results in hand, we incorporated 5 into the desired tetrapeptide 8. So far, we carried out peptide Claisen rearrangements only with small dipeptides, but never used longer peptide chains, such as tetrapeptides. We knew from previous work that the protecting groups on
Unsaturated fatty acids and a prenylated tryptophan derivative from a rare actinomycete of the genus Couchioplanes
Beilstein J. Org. Chem. 2021, 17, 2939–2949, doi:10.3762/bjoc.17.203
- H-13 (Figure 6). Thus, an S-configuration, corresponding to an ʟ-chirality for tryptophan, was assigned. Compounds 1–6 were not cytotoxic against P388 murine leukemia cells (IC50 > 100 μM), nor antimicrobial against five bacteria, Bacillus subtilis, Staphylococcus aureus, Ralstonia solanacearum
Recent advances in the asymmetric phosphoric acid-catalyzed synthesis of axially chiral compounds
Beilstein J. Org. Chem. 2021, 17, 2729–2764, doi:10.3762/bjoc.17.185
- of a wide range of axially chiral biaryls, heterobiaryls, vinylarenes, N-arylamines, spiranes, and allenes with high efficiency and excellent stereoselectivity. Keywords: allenes; atropisomerism; axial chirality; chiral phosphoric acid; heterobiaryls; spiranes; Introduction Axial chirality is one
- of the most important properties of nature, resulting from the nonplanar arrangement of four groups in pairs about a chirality axis. These include atropisomerism [1], chiral allenes, spiranes, spiroindanes, and so on [2][3]. Recently, there emerged an enormous demand for enantiopure compounds, not
- axial chiral compounds has been paid much attention [6], and great progress has been made in recent years. For example, many remarkable activities have been undertaken to develop strategies such as dynamic kinetic resolution, atroposelective coupling, cycloaddition, and chirality conversion for the
Synthetic strategies toward 1,3-oxathiolane nucleoside analogues
Beilstein J. Org. Chem. 2021, 17, 2680–2715, doi:10.3762/bjoc.17.182
- nuclear Overhauser effect (NOE) NMR spectroscopy are useful tools to monitor and control the chirality when utilizing a modified 1,3-oxathiolane intermediate 65 obtained via enzyme-catalyzed selective hydrolysis. Hu et al. [61] established a green catalyst, STS, for the asymmetric synthesis of lamivudine
N-Sulfinylpyrrolidine-containing ureas and thioureas as bifunctional organocatalysts
Beilstein J. Org. Chem. 2021, 17, 2629–2641, doi:10.3762/bjoc.17.176
- /mismatched combination of chirality, we employed both enantiomers of tert-butyl sulfinamide with the (S)-enantiomer of the pyrrolidine building block. The introduction of green chemistry principles into chemical transformations is an important goal toward sustainable production and manufacturing. Asymmetric
Strategies for the synthesis of brevipolides
Beilstein J. Org. Chem. 2021, 17, 2399–2416, doi:10.3762/bjoc.17.157
- reduced in a stereoselective manner adopting Luche conditions to provide diol 24 (dr 97:3), which after masking the primary alcohol moiety as a silyl ether, allowed isolation of the desired product 25 in 86% yield. This intermediate possessed the correct chirality on the free secondary alcohol to
Halides as versatile anions in asymmetric anion-binding organocatalysis
Beilstein J. Org. Chem. 2021, 17, 2270–2286, doi:10.3762/bjoc.17.145
- typical limiting factors of hydrogen bond donor catalysis, ranging from high catalyst loadings to high dilution, long reaction times and, in some cases, insufficient chirality transfer into the products. As a consequence, many efforts have been spent to overcome those limitations. Some of them rely on the
Asymmetric organocatalyzed synthesis of coumarin derivatives
Beilstein J. Org. Chem. 2021, 17, 1952–1980, doi:10.3762/bjoc.17.128
- -catalyzed cross-coupling reactions of coumarin derivatives [24]. Coumarins are a promising scaffold for design and development of bioactive agents, however it possesses a flat system [25]. One of the attractive benefits of introducing chirality in a drug candidate is that it leads to increased complexity to
On the application of 3d metals for C–H activation toward bioactive compounds: The key step for the synthesis of silver bullets
Beilstein J. Org. Chem. 2021, 17, 1849–1938, doi:10.3762/bjoc.17.126
- the late-stage modification of amino acids and peptides in 2016 (Scheme 27A and B) [159]. The methodology facilitated the targeted C–H oxidative modifications in amino acids and peptides concomitant with the preservation of the α-center chirality in good yields and broad scope regarding the number of
Chemical approaches to discover the full potential of peptide nucleic acids in biomedical applications
Beilstein J. Org. Chem. 2021, 17, 1641–1688, doi:10.3762/bjoc.17.116
- intercalation, triplex formation, and backbone chirality shifts [44]. A similar P-form helix having a wide and deep major groove and a shallow and narrow minor groove was also observed for an NMR solution structure of a self-complementary PNA–PNA duplex [45]. Taken together, these results confirmed that, while
Breaking paracyclophane: the unexpected formation of non-symmetric disubstituted nitro[2.2]metaparacyclophanes
Beilstein J. Org. Chem. 2021, 17, 1518–1526, doi:10.3762/bjoc.17.109
- nitronium ion must occur anti to the para ring of the cyclophane. Approach from the opposite face is blocked by the lower deck. Once oxidation has occurred conformational flipping of the meta deck is impossible and the planar chirality is locked [39]. It is possible that more cyclohexadienone cyclophane 6
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