Rapidly Measuring Reactivities of Carboxylic Acids to Generate Equireactive Building Block Mixtures:  A Spectrometric Assay

Dombi, Kendra L.; Steiner, Ulrich; Richert, Clemens

doi:10.1021/cc020069y

Cited by 11 publications

(22 citation statements)

References 39 publications

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“…Several methods have been reported for determining the isokinetic ratio for a variety of different reagent classes such as amino acids, carboxylic acids, and aldehydes {REF 9, REF 10, REF 11, REF 12, REF 13}. These methods include the use of amino acid analysis as well as binary and iterative HPLC analysis, and MALDI-TOF.…”

Section: Introductionmentioning

confidence: 99%

A Novel Method for the Determination of Isokinetic Ratios and Its Application in the Synthesis of Two New Positional Scanning Libraries

et al. 2012

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A novel method for the direct evaluation of the equimolarity of the compounds contained in a mixture is presented. We applied the method toward calculating isokinetic ratios for the reaction between the amine termini of a resin bound peptide fragment and a sulfonyl chloride in order to produce equal molar mixtures of sulfonamides. The results of this study and the application of the method to the synthesis of two new positional scanning synthetic combinatorial libraries (PS-SCL) are discussed.

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Section: Introductionmentioning

confidence: 99%

A Novel Method for the Determination of Isokinetic Ratios and Its Application in the Synthesis of Two New Positional Scanning Libraries

et al. 2012

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“…To assure efficient hit identification from PS‐SCLs, individual building blocks must be equally reactive under the conditions of library synthesis in order to guarantee equal or at least very similar proportions of the different final library members in the generated mixtures. This precondition limits the strategy to transformations in which equal reactivity is assured by appropriate activation techniques6–7 (e.g., peptide synthesis) or in which only building blocks of limited structural variation and reactivity—and, therefore, also diversity—are introduced in each synthesis step 8…”

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confidence: 99%

Positional Scanning Synthesis of a Peptoid Library Yields New Inducers of Apoptosis that Target Karyopherins and Tubulin

et al. 2015

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We describe the synthesis of a library of 11, 638 N-alkylglycine peptoid trimers in a positional scanning format with adjustment of reaction conditions to account for different reactivities of the monomer building blocks. Evaluation of the library by high-content phenotypic screening for modulators of the cytoskeleton and mitosis resulted in the identification of two apoptosis-inducing peptoids, which, despite their structural similarity, target different proteins and cellular mechanisms. Whereas one peptoid binds to karyopherins, which mediate nuclear transport, the other N-alkylglycine trimer binds tubulin at the vinca alkaloid binding site.

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“…7 The assay involves competitive coupling reactions between test and reference acid with a porphyrin tetraamine under pseudo-first order conditions and product analysis via MALDI-TOF mass spectra. 6 One class of carboxylic acids, namely the N-methylpyrrole carboxylic acids, has not yet been explored by SMOSE. Methylpyrroles are building blocks for oligopyrroleamides that bind sequence-specifically in the minor groove of DNA duplexes, 8,9 and conjugates of oligonucleotides and oligopyrroleamides show promising binding properties.…”

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“…Incomplete activation of the less reactive building block was noted as a possible weakness of earlier assays. 6 The mixture of activated 1 and 5 was reacted with tetrakis[L-alanyl(p-aminophenyl)]porphyrin 6 ( Figure 2), our established reaction partner for reactivity tests, 6 scaling down to one quarter compared to earlier assays. 18 Analysis of the product distribution required the reflectron mode of the MALDI-TOF mass spectrometer, as the mass difference between 1 and acetylleucine (5) is only 3 Daltons.…”

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confidence: 99%

“…For 2, repeated runs gave a relative reactivity of 0.6-1.2 which is in reasonable agreement with the 1.65 calculated from the relative reactivity measured against Ac-Leu-NHS and the reactivity difference between Boc-Val-NHS and AcLeu-NHS (0.05:1). 6 For HBTU-activated 3 and 4, relative reactivities of 0.25-0.46 and 0.26 of that of 13 were measured, respectively.…”

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A Reactivity Test for HBTU-Activated Carboxylic Acids with Low Reactivity and Competitive Coupling ofN-Methylpyrrole Derivatives

Ernst¹,

Richert²

2005

Synlett

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N-Methylpyrrole carboxylic acids are building blocks for oligopyrroleamides that bind DNA duplexes via the minor groove. The reactivity of HBTU-based active esters of four methylpyrroles in amide-forming reactions was determined. When assayed against HBTU-activated N-acetylleucine, a 6-250-fold lower reactivity was found. When assayed against the NHS ester of Boc-valine, the reactivity was up to 4-fold lower. Despite large differences in reactivity, mixed couplings were successfully performed with all four pyrroles, generating small libraries of modified oligonucleotides suitable for spectrometrically monitored selection experiments. Microwave irradiation accelerated coupling of an Fmoc-protected pyrrole to an amine on solid support.Combinatorial searches for new structural motives that bind tightly to a given target can be performed in a number of different ways. 1 For modified oligonucleotides the synthesis of small combinatorial chemsets (libraries) that are then subjected to mass spectrometrically monitored selection experiments (SMOSEs) 2 has been one successful approach. 3 Other approaches involving combinatorial steps and spectrometric or spectroscopic techniques are known. 4,5 The small chemsets employed in SMOSE assays are usually prepared via mixed coupling of carboxylic acids and amine-terminated DNA on solid support. 3 After high yielding mixed couplings, crude libraries can be assayed directly, without purification or pooling steps, greatly enhancing the throughput. SMOSE assays require the unambiguous detection of all components of a given chemset. Since the reactivity of building blocks varies with structure, equireactive mixtures of the building blocks have to be generated for mixed couplings by adjusting the concentration of building blocks such that increased reactivity is compensated by a lower concentration and decreased reactivity by a higher concentration. This demands a knowledge of the relative reactivity of the active esters of the carboxylic acids. Since conventional methods of determining rate constants are time consuming we developed a rapid assay for determining relative reactivities, 6 building on earlier work on combinatorial libraries of porphyrins. 7 The assay involves competitive coupling reactions between test and reference acid with a porphyrin tetraamine under pseudo-first order conditions and product analysis via MALDI-TOF mass spectra. 6One class of carboxylic acids, namely the N-methylpyrrole carboxylic acids, has not yet been explored by SMOSE. Methylpyrroles are building blocks for oligopyrroleamides that bind sequence-specifically in the minor groove of DNA duplexes, 8,9 and conjugates of oligonucleotides and oligopyrroleamides show promising binding properties. 10 Our recent synthesis of stilbenelinked DNA-oligopyrroleamide hybrids required separate assembly of oligopyrroles in solution, 11 as coupling to amino-terminated DNA on controlled pore glass (cpg) was extremely low yielding. Attempts to terminate stilbene caps 12 in pyrrole amides using mixed coupling were also...

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Rapidly Measuring Reactivities of Carboxylic Acids to Generate Equireactive Building Block Mixtures: A Spectrometric Assay

Cited by 11 publications

References 39 publications

A Novel Method for the Determination of Isokinetic Ratios and Its Application in the Synthesis of Two New Positional Scanning Libraries

A Novel Method for the Determination of Isokinetic Ratios and Its Application in the Synthesis of Two New Positional Scanning Libraries

Positional Scanning Synthesis of a Peptoid Library Yields New Inducers of Apoptosis that Target Karyopherins and Tubulin

A Reactivity Test for HBTU-Activated Carboxylic Acids with Low Reactivity and Competitive Coupling ofN-Methylpyrrole Derivatives

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