Hydrothermal synthesis and structure of an open framework Co0.7Zn1.3(PO4)2(NH3-CH2CH2NH3) and Co6.2(OH)4(PO4)4Zn1.80, a new adamite type phase

The hydrothermal reaction of cobalt(II)oxalate di-hydrate, zinc oxide, and triethyl-orthophosphate, using 1,2-diaminoethane as structure directing template in water, produced two major crystal phases in almost equal amount: the purple crystals of [NH₃-CH₂CH₂NH₃][Co_0.7Zn_1.3(PO₄)₂] (1) and the red burgundy crystals of Co_6.2(OH)₄(PO₄)₄Zn_1.80 (2), a new adamite type phase. The structure of [NH₃-CH₂CH₂NH₃] [Co_0.7Zn_1.3(PO₄)₂] (1) exhibits a 3D open framework built from PO₄ and (Co/Zn)O₄ tetrahedra, and (Co/Zn)O₅ trigonal bipyramids, forming two major channels, an 8-membered ring channel and a 16-membered ring channel, that host the ethanediammonium ions. The Co_6.2(OH)₄(PO₄)₄Zn_1.80 (2) is isomorphous with adamite-type M₂(OH)XO₄ structure, with a condensed vertex and edge sharing network of (Co/Zn)O₅, and distorted CoO₆, and PO₄ subunits. The cobalt preference for higher coordination numbers is displayed in this structure, where the octahedral sites are wholly occupied by cobalt. Thermal analysis confirmed that these compounds display high thermal stability.     

Mixed-solvothermal syntheses, structures and luminescence properties of two new Zn(II) phosphonates with layered and 3D framework structures

Two new zinc phosphonates with 2-hydroxyphosphonoacetic acid (HPAA) and 1-hydroxyethylidenediphosphonic acid (hedpH₄), [Zn₂{HO₃PCH(OH)CO₂}₃]·2NH₂(CH₃)₂·3H₂O (1) and [Zn₃{CH₃C(OH)(PO₃)₂}₂]·2NH₂(CH₃)₂·H₂O (2) have been synthesized under mixed-solvothermal conditions at 160 °C and structurally characterized by X-ray single-crystal diffraction, X-ray powder diffraction, infrared spectroscopy and elemental analysis. The structure of compound 1 comprises Zn1O₆ and Zn2O₆ octahedra connected by [HO₃PCH(OH)CO₂]²⁻ to form a 2D layered structure with one-dimensional channel system along c-axis direction, and the protonated dimethylamine cations are being located between two adjacent layers. Interestingly the layers of 1 arranged in an alternative sequence (ABAB). Compound 2 features a 3D framework structure with channels along the b- and c-axis, respectively. The charge-compensating protonated Hdma⁺ cations and solvate water molecules are located inside the channels along the c-axis. A notable feature for compound 2 is the presence of the alternate left- and right-handed helical chains in the structure. The luminescence properties of compounds 1 and 2 have also been studied.     

Synthesis and crystal structure of one-dimensional zinc(II) polymer constructed by salicylate and trans-1,2-bis(4-pyridyl)ethylene

A new zinc(II) compound, [Zn₂(Hsal)₄(4,4′-bpe)₂] · [Zn(Hsal)₂(4,4′-bpe)(DMF)(H₂O)] · CH₃OH (1) (Hsal = salicylate and 4,4′-bpe = trans-1,2-bis(4-pyridyl)ethylene) has been synthesized and characterized by elemental analysis, infrared spectroscopy, thermogravimetric analysis, and single crystal X-ray diffraction. The crystal structure consists of three independent moieties: [Zn₂(Hsal)₄(4,4′-bpe)₂], [Zn(Hsal)₂(4,4′-bpe)(DMF)(H₂O)], and non-coordinated CH₃OH molecule. In the compound two independent moieties which are connected by 4,4′-bpe to form 1-D chains, respectively, are further expended to accomplish 2-D network through hydrogen-bonding interactions between non-coordinated methanol and coordinated water molecule or carboxylate oxygen atoms of Hsal ligands.     

Template synthesis, structure and magnetic property of a new open-framework manganese borophosphate: (C4N2H12)Mn[B2P3O12(OH)]

A new manganese borophosphate compound, (C₄N₂H₁₂)Mn[B₂P₃O₁₂(OH)], has been hydrothermally synthesized, and structurally determined by single crystal X-ray diffractions. The crystal structure of the compound is characterized by corner-sharing BO₄ and PO₄ groups, leading to 1-D infinite chains built from alterative tetrahedra with a sequence of two corner-sharing borate tetrahedra, whose remaining corners are shared with two loop branching phosphate groups followed by a phosphate unit, which is interconnected by MnO₆ octahedral groups to construct a three-dimensional open-framework topology with unidimensional channels, which are occupied by diprotonated piperazinium ions. Magnetic measurement reveals an antiferromagnetic interaction system. Other characterizations by elemental analysis, IR and thermal analyses are also discussed.     

Solvothermal synthesis and structures of one- and two-dimensional zinc phosphates

Two new zinc phosphates, [C₈N₄H₂₆][Zn₂(HPO₄)₄] (I) and [C₈N₄H₂₆][Zn₆(PO₄)₄(HPO₄)₂] (II) have been synthesized employing solvothermal reactions in the presence of N,N^′(3-bisaminopropyl)-1,2-ethylenediamine. The structure of I consists of ZnO₄ and HPO₄ tetrahedra, forming four-membered rings, which are connected edgewise giving rise to the one-dimensional ladders. HPO₄ units also hang from the Zn center into the inter-ladder spaces along with the organic amine molecules. In II, the connectivity between ZnO₄, PO₄ and HPO₄ tetrahedral units gives rise to a two-dimensional layered structure with eight-membered apertures. The amine molecule occupies the center of these apertures and interacts with the layer through hydrogen bonds. The formation of one-dimensional tube-like structure in II is noteworthy.     

Hydrothermal syntheses and structures of vanadium oxyfluorides templated by organic and metal organic cations

The hydrothermal reactions of V₂O₅, HF and an organodiphosphonic acid, in the presence of appropriate templating organoammonium or metal-organic complex cations provided three new oxyfluorovanadate compounds. The V(IV) species [H₃N(CH₂)₂NH₂(CH₂)₂NH₂(CH₂)₂NH₃][V₃O₃F₂(H₂O){O₃PCH₂PO₃}₂]·2H₂O (1·2H₂O) exhibits a three-dimensional anionic framework constructed from {VO(O₃PCH₂PO₃)}_n²ⁿ⁻ chains and {VF₂O₄} octahedra. The molecular structure of [N(CH₂CH₂NH₃)₃]₂[NH₄][V₃O₂F₆(O₃PCH₂PO₃)₂]·2H₂O (2·2H₂O) is characterized by the presence of unique {V₃O₂F₆(O₃PCH₂PO₃)₂}⁷⁻ clusters. The bimetallic phase [{Cu(ophen)}VOF{HO₃P(CH₂)₅PO₃}] (3) is one-dimensional with {Cu₂V₂O₂F₂(HO₃PR)₂(O₃PR)₂} cluster building blocks.     

Structural studies in solution and in the solid state on the zinc chelate of 2-hydroxy-(4-methylthio)butanoic acid, an effective mineral supplement in animal feeding

The bis-chelate complex of Zn²⁺ with 2-hydroxy-(4-methylthio)butanoate (MHA_-H the anion derived from the so-called methionine hydroxy-analogue, MHA) is an effective, bioavailable mineral supplement for animal feeding. It can be obtained in two solid forms: the anhydrous [Zn(OC(O)CH₂CH(OH)CH₂CH₂SCH₃)₂] and the corresponding dihydrate species, both well distinguishable by IR spectroscopy and powder X-ray diffraction. The crystal and molecular structure of the dihydrate form has been solved by single-crystal X-ray diffraction. It consists of dinuclear bis-chelate species with a bridging carboxylate group, both zinc atoms displaying hexacoordination involving all the hydroxyl and carboxyl groups from the four MHA_-H anions and three oxygens from different water molecules. The fourth water molecule does not participate in coordination. Therefore, the dihydrate complex must be formulated as [Zn₂(OC(O)CH₂CH(OH)CH₂CH₂SCH₃)₄(H₂O)₃] · H₂O (1). A molecular computational analysis has been carried out by density functional theory (DFT) on three possible MHA_-H zinc chelates, i.e. the dinuclear bis-chelate observed in the solid state, the mononuclear bis-chelate diaquo-complex, and the monochelate tetraaquo-complex. Calculations have suggested that between the dinuclear and mononuclear bis-chelates, the preferred form in aqueous solution may be the second one. Moreover, both ¹H (chemical shifts and relaxation rates) and ¹³C NMR data provide further evidence for the formation of Zn/MHA_-H chelates in solution.     

Natural incorporation of mercury in bone

Mercury (Hg) is a highly toxic element that causes bone defects and malformations. Structure and surface analyses using quantitative x-ray diffraction using the Rietveld method, High-Resolution Transmission Electron Microscopy and nanodiffraction analyses, and Fourier-Transformed Infrared spectroscopy showed that bone enriched naturally with Hg (≤ 2.3 %) contained Hg₃PO₄ [(Hg₂)₃(PO₄)₂] and HgO. Bone [mostly as apatite, verified as carboxyapatite Ca₁₀(PO₄)₄(CO₃)₃(OH)₂(s)] and cinnabar (HgS) dissolved releasing Hg⁺ (existing as dimer Hg₂²⁺) and PO₄³⁻, both of which became immobilized as (Hg₂)₃(PO₄)₂. Besides, released Hg²⁺ became oxidized to form HgO. The outcome of this work is novel, provided that only a handful of stable compounds of Hg₂²⁺ are found in nature.     

Macrocyclic dinuclear Zn(II) complexes: synthesis, structure and hydrolysis of tris(p-nitrophenyl) phosphate

A series of mono- and dinuclear zinc complexes of 3,6,9,17,20,23-hexaaza-29,30-dihydroxy-13,27-dimethyl-tricyclo[23,3,1^11,15]triaconta-1(28),11,13,15(30),25,26-hexaene (H₂L or BDBPH) have been defined in solution by potentiometry. The crystal structure of [Zn₂C₂₆H₄₀N₆O₂(CH₃OH)₂]·Br₂ has been determined by X-ray. Each zinc ion is coordinated to three nitrogen atoms, a bridged-phenolic oxygen atom, and a methanolic oxygen atom, which define a six-coordinated octahedron. Bond lengths of ZnN are in the range of 2.104(3)-2.120(3) Å and distances between Zn and O (bridged-phenolic oxygen) are 2.052(2), 2.062(2) Å, respectively. The dinuclear complexes: [Zn₂L]²⁺ and [Zn₂L(OH)]⁺ play crucial roles in hydrolytic reaction of tris(4-nitrophenyl)phosphate. A possible mechanism showed that [Zn₂L(OH)]⁺ acts as a nucleophile and [Zn₂L]²⁺ stabilizes the formation of the intermediate: [Zn₂L-BNP].     

Constructions of a set of hydrogen-bonded supramolecules from reactions of transition metals with 3,5-dimethylpyrazole and different dicarboxylate ligands

Three new supramolecular coordination complexes [Zn(Hdmpz)₂(O₂C(CH₂)₂CO₂)]_n (1), Ni₃(Hdmpz)₄(HOOC(CH₂)₂CO₂)₂(O₂C(CH₂)₂CO₂)₂(CH₃OH)₂ (2) and Co₃(Hdmpz)₂(HOOC(CH₂)₃CO₂)₂(O₂C(CH₂)₃CO₂)₂(CH₃OH)₄ (3) (Hdmpz = 3,5-dimethylpyrazol) have been synthesized and characterized by elemental analyses, IR spectra and single crystal X-ray diffraction analysis. Complex 1 is a polymer with the ZnO₄N₂ core that is interconnected by bridging succinate moieties into a 1D chain structure. Complexes 2 and 3 are discrete structures, both of them have two types of bridging-coordinated modes of carboxylate ligands (μ₃-η²-η², μ₂-η¹-η¹). And there are rich intra- or intermolecular hydrogen bonds in the crystals of 1-3, thereby forming a set of supramolecular frameworks. In addition, the thermal behaviors of 1-3 were also investigated.     

Synthesis and characterization of a series of N3O-ligated mononuclear Mn(II) halide complexes

Treatment of a N₃O-donor chelate ligand (mpppa = N-methyl-N-((6-pivaloylamido-2-pyridyl)methyl)-N-(2-pyridylethyl)amine; bpppa = N-benzyl-N-((6-pivaloylamido-2-pyridyl)methyl)-N-(2-pyridylmethyl)amine) with equimolar amounts of Mn(ClO₄)₂ · 6H₂O and Me₄NX (X = Cl, Br, I) in methanol resulted in the production of a series of mononuclear Mn(II) halide complexes of the formula [(L)Mn-X(CH₃OH)]ClO₄ (L = mpppa or bpppa). X-ray crystallographic studies of [(mpppa)Mn-Cl(CH₃OH)]ClO₄ · CH₃OH (2 · CH₃OH), [(mpppa)Mn-Br(CH₃OH)]ClO₄ · CH₃OH (4 · CH₃OH), [(mpppa)Mn-I(CH₃OH)]ClO₄ · CH₃OH (6 · CH₃OH), and [(bpppa)Mn-I(CH₃OH)]ClO₄ · O₂(CH₂CH₃)₂ (7 · O(CH₂CH₃)₂) revealed for each a mononuclear Mn(II) center having tetradentate coordination of the chelate ligand, one coordinated halide anion, and one molecule of coordinated methanol. An increase in the Mn-X distance through the halide series (Cl, Br, I) correlates linearly with the increase in the radius of the anion. The magnetic moment of each halide complex, measured via Evans method in methanol, is consistent with the presence of a high-spin distorted octahedral Mn(II) center. The EPR features of the halide complexes in methanol do not change as a function of the nature of the halide coordinated to the Mn(II) center.     

Aggregation of imino-phosphonate monoester complexes

The aggregates {[Zn(L¹)]H₂O}_∞ and {[Y(L²)]₄Na₃(H₂O)₂(MeOH)_1.2}(NO₃)₃·2H₂O·5.6MeOH have been assembled from complexes of imino-phosphonate monoester ligands [L¹]²⁻ {CH₂[CH₂NC(CH₃)PO₂(OMe)]₂}²⁻ and [L²]³⁻ {N[CH₂CH₂NC(CH₃)PO₂(OMe)]₃}³⁻, the topology of these materials differing from that of their imino-carboxylate analogues.     

Metal-directed assembly of 1-D and 2-D coordination polymers with fluconazole and dicyanamide co-ligand

The coordination chemistry of a flexible poly(triazolyl)alkane derivative, fluconazole (HFlu), with a series of transition metal ions and dicyanamide (dca) anionic co-ligand has been explored to afford six new metal-organic coordination polymers. Complexes [M(HFlu)₂(dca)₂]_n (M = Mn^II for 1, Fe^II for 2, Co^II for 3, Zn^II for 5, and Cd^II for 6) have the isostructural 1-D double-chain array via bridging fluconazole, whereas [Cu₃(Flu)₂(dca)₄(CH₃OH)₂]_n (4) shows an unusual 2-D layered metal-organic framework with dimeric Cu^II subunits. Notably, both types of coordination patterns are extended into distinct 3-D supramolecular networks via hydrogen-bonding interactions. This result indicates that the choice of metal ion has a significant effect on these polymeric structures as well as the binding modes of the ligands, which is discussed in detail. The Zn^II and Cd^II complexes 5 and 6 display similar fluorescent emissions at 260 nm in the solid state, which essentially are intraligand transitions.     

Synthesis, characterization, solid-state photo-luminescence and anti-tumor activity of zinc(II) 4′-phenyl-terpyridine compounds

Reactions between 4′-phenyl-terpyridine (L) and several Zn(II) salts (sulfate, nitrate, chloride or acetate) led to the formation of the complexes [Zn₂(μ-O₂SO₂)₂L₂(CH₃OH)₂] (1), [Zn(NO₃)L(H₂O)]NO₃ (2), [Zn(Cl)₂L] (3) and [Zn(CH₃COO)₂L] (4) which were characterized by IR, ¹H NMR and fluorescence spectroscopies, elemental analysis and single crystal X-ray diffraction. In the dinuclear molecule of 1 the Zn atom is hexacoordinated, with a N₃O₃ coordination environment and forms an octagonal ZnOSOZnOSO metallacycle. In the remaining structures, the metal atom is envisaged as possessing highly distorted N₃X₂ (X = O or Cl) square pyramid coordination geometries. The structure of 3 presents two different packing patterns which lead to distinct π-π stackings. In both structures 2 and 4, strong intermolecular hydrogen bonds were identified. The complexes exhibit promising in vitro tumor-inhibiting activities, which are higher than that of cisplatin, against the following human tumor cell lines: promyelocyticfina leukaemia (HL-60), hepatocellular carcinoma (Bel-7402), gastric carcinoma (BGC-823) and nasopharyngeal carcinoma (KB).     

Solution-mediated syntheses and characterizations of two new zincophosphites [C6H14N2]0.5[Zn(H2PO3)2] and [C4H12N2]0.5[(CH3)2NH2][Zn2(HPO3)3]

Two new zincophosphites [C₆H₁₄N₂]_0.5[Zn(H₂PO₃)₂] 1 and [C₄H₁₂N₂]_0.5[(CH₃)₂NH₂][Zn₂(HPO₃)₃] 2 have been solvothermally synthesized in mixed solvents of N,N-dimethylformamide (DMF) and 1,4-dioxane (DOA), respectively. Single-crystal X-ray diffraction analysis reveals that compound 1 exhibits a neutral inorganic chain formed by ZnO₄ and HPO₂(OH) units. Interestingly, the left- and right-handed hydrogen-bonded helical chains are alternately formed via the hydrogen-bonds between two adjacent chains. Compound 2 exhibits a layer structure with 4- and 12-MRs formed by ZnO₄ and HPO₃ units, in which two kinds of organic amine molecules both act as countercations to compensate the overall negative electrostatic charge of the anionic network.     

Hydrothermal synthesis and structural characterization of bimetallic organic-inorganic hybrid materials: Copper vanadate-1,4-Carboxy-phenylphosphonate phases

The hydrothermal reactions of V₂O₅, a copper(II) source, 1,4-carboxy-phenylphosphonic acid, a bidentate organonitrogen ligand and HF provided a series of bimetallic organic-inorganic hybrid materials. [Cu(bpy)VO₂(O₂CC₆H₄PO₃)] (1) is one-dimensional, while [Cu(bpa)VO(OH)(O₂CC₆H₄PO₃)] (2) and [Cu(phen)V₂O₄F(O₂CC₆H₄PO₃)] (3) are two-dimensional. In the absence of V₂O₅, a number of copper-organophosphonates were isolated. Compound 4 [Cu(phen)(H₂O)(O₂CC₆H₄PO₃H)] is one-dimensional while [Cu₃(bpy)₂(O₂CC₆H₄PO₃)₂] (5) is two-dimensional. Molecular structures were observed for [CuF(bpy)(H₂O)(HO₂CC₆H₄PO₃H)] (6) and [Cu(bpa)(O₂CC₆H₄PO₃H)]·3H₂O (7·3H₂O).     

Speciation of dimethyltin(IV) – and trimethyltin(IV) – carbocysteinate and – glutamate systems in aqueous media

Abstract

The formation of complex species in the dimethyltin(IV) and trimethyltin(IV)-carboxymethyl-L-cysteinate (carbocysteinate) systems in NaCl_aq, at different ionic strengths, and in a multicomponent Na⁺, K⁺, Ca²⁺ ,Mg²⁺, Cl^? and SO₄^2-? medium representative of the seawater major composition, is discussed. Experimental results give evidence for the formation of the following species (L = carbocysteinate): [(CH₃)₂Sn(L)]⁰, [(CH₃)₂Sn(HL)]⁺, [(CH₃)₂Sn(OH)(L)]^?, [(CH₃)₂Sn(OH)₂(L)]^2? in the DMT–CCYS system, and [(CH₃)₃Sn(HL)]⁰, [(CH₃)₃Sn(L)]^? and [(CH₃)₃Sn(OH)(L)]^2? in the TMT-CCYS system. The ionic strength dependence of formation constants was taken into account by an extended Debye Hückel type equation and by the SIT (Specific ion Interaction Theory). Measurements were carried out also on the dimethyltin(IV)-glutamate and trimethyltin(IV)-glutamate systems in NaCl_aq, owing the strict similarity of glutamate and carbocysteinate. Results obtained show the formation of complex species having the same stoichiometry as those formed in the DMT- and TMT-carbocysteinate systems, with very similar stability, confirming that carbocysteinate behaves as a dicarboxylic amino acid without involving the sulfur-bridge potential binding site in metal coordination.     

Solid state coordination chemistry of the oxovanadium-diphosphonate system: Structural consequences of aryl tethers on materials of the type cation/VxOy/diphos, where cation = organoammonium and diphos = 1,4-phenyldiphosphonic acid

Hydrothermal reactions of V₂O₅, 1,4-phenyldiphosphonic acid and an appropriate organoamine, in the presence of HF as solubilizer, were exploited to prepare a series of materials of the general type [organoammonium cation]_n[V_xO_y(H_mO₃PC₆H₄PO₃H_p)₃]. Compound 1, [H₃N(CH₂)₄NH₃][V₂O₄(O₃PC₆H₄PO₃)], exhibits a one-dimensional V-P-O substructure, linked through the phenyl tethers of the ligand into a layer. Compound 1 is a unique example of a V(V)-diphosphonate phase. Compounds 2 and 3, [H₃N(CH₂)₂NH₃][V₂O₂(O₃PC₆H₄PO₃H)₂] and [H₂pip][V₂O₂(O₃PC₆H₄PO₃H)₂] (H₂pip = piperazinium), exhibit identical two dimensional substructures, constructed from ribbons connected through the phenyl tethers of the ligands. The three-dimensional framework of [H₃N(CH₂)₇NH₃]₂[V₃O₄(O₃PC₆H₄PO₃)₂] (4) consists of V-P-O layers characterized by trinuclear V(IV)-oxide subunits and 9 and 12 polyhedral connect rings; the layers are buttressed by the phenyl spacers to provide the typical “pillared” layer structure common to metal diphosphonate materials. Compound 5, [H₂dabco][V₂F₃O₂(O₃PC₆H₄PO₃H)]·H₂O, is also three-dimensional with oxyfluoro-vanadium(IV) chains linked through the diphosphonate ligands into a framework structure with void spacers to accommodate the {H₂dabco}²⁺ cations (dabco = diamino bicyclo octane). The magnetic properties of 2-5 reflect the structural characteristics of the materials.     

On the crystal structures and magnetism of some hybrid organic–inorganic metal organophosphonates

We review our recent work in the field of molecule-based magnets showing the structural and magnetic properties of a special class of hybrid organic–inorganic compounds, i.e. metal(II) organophosphonates. The synthesis, the crystal structures and, in particular, the magnetic studies of selected examples of compounds of formulas M(II)[(R–PO₃)(H₂O)], and M₂[(O₃P–R′–PO₃)(2H₂O)] M = Cr, Fe, Co; R = C_nH_2n+1, n = 1, 2, 3… and C₆H₅, R′ = (CH₂)₂ prepared in our laboratory are presented and discussed. Metal alkylphosphonates, except those of Co(II), are weak ferromagnets at low temperatures. The observed magnetic ordering temperature T_N varies from 4.2 to 25 K, depending on the transition metal ions and on crystal and molecular structure. Moreover, in the case of a bifunctional molecule like aminoethylphosphonic acid, NH₂(CH₂)₂PO₃H₂, or the carboxyethylphosphonic acid, HO₂C(CH₂)₂PO₃H₂, is used as a ligand, then a novel Cr(II) compound of formula Cr[NH₃(CH₂)₂PO₃(Cl)(H₂O)] and a microporous Fe(III) salt (NH₄)[Fe₂(OH){O₃P(CH₂)₂CO₂}₂] are isolated. The latter are both polar and, more interesting, Cr(II) ammoniumethylphosphonate chloride results to be a weak ferromagnet below T_N = 5.0 K.     

Influence of glucose-templated proline mimetics on the β-turn conformation of the peptide fragment Ac-Leu-d-Phe-Pro-Val-NMe2 found in Gramicidin S

The synthesis of tetrapeptide-based β-turn mimetics containing spirocyclic glucose-templated 3-hydroxyproline hybrids Glc3′(S)-5′(R)(CH₂OH)HypH and Glc3′(S)-5′(S)(CH₂OH)HypH as proline mimetics is presented. NMR-based conformational analysis of Ac-Leu-d-Phe-[Glc3′(S)-5′(R)(CH₂OH)HypH]-Val-NMe₂ and Ac-Leu-d-Phe-[Glc3′(S)-5′(S)(CH₂OH)HypH]-Val-NMe₂ demonstrates the presence of β-turn conformations. Different turn structures were observed by changing the stereochemistry at 5′-position of Glc3′(S)-5′(R)(CH₂OH)HypH. The major prolyl amide cis isomer of glucose-protected tetrapeptide Ac-Leu-d-Phe-[Glc(MOM)₄3′(S)-5′(R)(CH₂OMOM)HypH]-Val-NMe₂11 and glucose unprotected Ac-Leu-d-Phe-[Glc3′(S)-5′(R)(CH₂OH)HypH]-Val-NMe₂13 forms a type VI β-turn conformation. In contrast, the major prolyl amide trans rotamer of tetrapeptide Ac-Leu-d-Phe-[Glc(MOM)₄3′(S)-5′(S)(CH₂OMOM)HypH]-Val-NMe₂12 conserves a similar β-turn conformation as the Gramicidin S-based peptide fragment Ac-Leu-d-Phe-Pro-Val-NMe₂16.