On welfare pluralism, social policy and the contribution of sociology: Revisiting Robert Pinker.

On occasion it makes sound sense to undertake a retrospective review of a late colleague's contribution to his or her subject area. This applies to Robert Pinker, Professor of Social Administration at the London School of Economics, who died at the age of 89 in February 2021. Over a long life he made a major impact on working for press freedom and to social work studies, but this article concerns his work on social policy, and particularly on the idea of welfare pluralism, a many-faceted idea the exploration of which powered two pathbreaking books (1971) and (1979).

A Shortcut to the Synthesis of Peptide Thioesters.

Peptide thioesters serve as fundamental building blocks for the synthesis of proteins and cyclic peptides. Classically, methods to synthesize thioesters have been based on acid-labile amino-protecting groups for which final side-chain deprotection required the use of hazardous hydrogen fluoride (HF). Alternative protection schemes based on base-labile amino-protecting groups have become preferred methods but are not suitable due to the lability of thioester bonds toward bases.

Auxiliary-assisted chemical ubiquitylation of NEMO and linear extension by HOIP.

The ubiquitylation of NF-κB essential modulator (NEMO) is part of the intracellular immune signalling pathway. Monoubiquitylated NEMO is required for exploring the mechanism of NEMO linear ubiquitylation by LUBAC (linear ubiquitin chain assembly complex), but is not accessible by biological techniques. Here we perform the chemical ubiquitylation of NEMO using a ligation auxiliary, which only requires a two-step synthesis, and is easily installed onto the lysine side-chain.

Synthesis of Amide Backbone-Modified Peptides.

Solubility is a key property of peptides and of central importance to the success of solid-phase peptide synthesis and subsequent peptide purification and handling. Substitution of the backbone amide bond can dramatically increase peptide solubility. Backbone amide bond protection works by preventing the formation of interchain association and can be used both to synthesize aggregation-prone peptide sequences on solid phase and to improve solubility of a peptide post synthesis.

Herbert Spencer, Sociological Theory, and the Professions.

This article presents new insights into Spencer's theoretical sociology as he applied it to the professions and professional institutions, which he discussed extensively, particularly in his . The first part of this article notes the main conceptual insights which he established and aligns them within the wider context of a re-reading of Spencer's sociology. Particular attention is paid to the "social organism" and the spontaneous cooperation of social individuals in society (with each possessing "social self-consciousness").

Head to tail cyclisation of cell-penetrating peptides: impact on GAG-dependent internalisation and direct translocation.

A series of cyclic lipidated oligo-Arg cell penetrating peptides were synthesised with varied macrocycle size and lipid chain anchoring site. The study of their cellular uptake revealed different structural requirements to promote efficient glycosaminoglycan-dependent endocytosis and direct translocation.

Social Solidarity and Herbert Spencer: Not the Oxymoron That Might Be Assumed.

This article attempts to retrieve important aspects of Spencer's sociology from the general neglect and misrepresentation which threatens to overwhelm it all. It does touch on many such highly dubious contentions as that he was a "social Darwinist," but the prime focus is to deal with three linked themes. First, the article examines the significance of his attribution to individuals of "social self-consciousness" as part of sociality, thus distancing it from Durkheim's influential but suspect reading of Spencer's individuals as egoistic.

A method for the unbiased and efficient segmental labelling of RNA-binding proteins for structure and biophysics.

Most eukaryotic RNA regulators recognise their RNA and protein partners by the combinatorial use of several RNA binding domains. Inter-domain dynamics and interactions play a key role in recognition and can be analysed by techniques such as NMR or FRET, provided that the information relative to the individual interactions can be de-convoluted. Segmentally labelling the proteins by ligating labelled and unlabelled peptide chains allows one to filter out unwanted information and observe the labelled moieties only.

HF-Free Boc Synthesis of Peptide Thioesters for Ligation and Cyclization.

We have developed a convenient method for the direct synthesis of peptide thioesters, versatile intermediates for peptide ligation and cyclic peptide synthesis. The technology uses a modified Boc SPPS strategy that avoids the use of anhydrous HF. Boc in situ neutralization protocols are used in combination with Merrifield hydroxymethyl resin and TFA/TMSBr cleavage.

A backbone amide protecting group for overcoming difficult sequences and suppressing aspartimide formation.

A backbone amide bond protecting group, 2-hydroxy-4-methoxy-5-nitrobenzyl (Hmnb), improved the synthesis of aggregation and aspartimide-prone peptides. Introduction of Hmnb is automated and carried out during peptide assembly by addition of 4-methoxy-5-nitrosalicylaldehyde to the peptidyl-resin and on-resin reduction to the secondary amine. Acylation of the hindered secondary amine is aided by the formation of an internal nitrophenol ester that undergoes a favourable O,N intramolecular acyl transfer.

Advances in Fmoc solid-phase peptide synthesis.

Today, Fmoc SPPS is the method of choice for peptide synthesis. Very-high-quality Fmoc building blocks are available at low cost because of the economies of scale arising from current multiton production of therapeutic peptides by Fmoc SPPS. Many modified derivatives are commercially available as Fmoc building blocks, making synthetic access to a broad range of peptide derivatives straightforward.

Jarid2 Methylation via the PRC2 Complex Regulates H3K27me3 Deposition during Cell Differentiation.

Polycomb Group (PcG) proteins maintain transcriptional repression throughout development, mostly by regulating chromatin structure. Polycomb Repressive Complex 2 (PRC2), a component of the Polycomb machinery, is responsible for the methylation of histone H3 lysine 27 (H3K27me2/3). Jarid2 was previously identified as a cofactor of PRC2, regulating PRC2 targeting to chromatin and its enzymatic activity.

Automated synthesis of backbone protected peptides.

The synthesis of peptides rich in aggregation prone sequences can be improved with backbone protection. We report the automated introduction of backbone protection to a peptide. This new method was applied in a fully-automated synthesis, giving improved handling, quality and yield of several challenging target sequences.

Hypoxic regulation of hand1 controls the fetal-neonatal switch in cardiac metabolism.

Cardiomyocytes are vulnerable to hypoxia in the adult, but adapted to hypoxia in utero. Current understanding of endogenous cardiac oxygen sensing pathways is limited. Myocardial oxygen consumption is determined by regulation of energy metabolism, which shifts from glycolysis to lipid oxidation soon after birth, and is reversed in failing adult hearts, accompanying re-expression of several "fetal" genes whose role in disease phenotypes remains unknown.

Evaluating the use of Apo-neocarzinostatin as a cell penetrating protein.

Protein-ligand complex neocarzinostatin (NCS) is a small, thermostable protein-ligand complex that is able to deliver its ligand cargo into live mammalian cells where it induces DNA damage. Apo-NCS is able to functionally display complementarity determining regions loops, and has been hypothesised to act as a cell-penetrating protein, which would make it an ideal scaffold for cell targeting, and subsequent intracellular delivery of small-molecule drugs. In order to evaluate apo-NCS as a cell penetrating protein, we have evaluated the efficiency of its internalisation into live HeLa cells using matrix-assisted laser-desorption ionization-time-of-flight mass spectrometry and fluorescence microscopy.

Simplifying native chemical ligation with an N-acylsulfonamide linker.

We report a simplified procedure for the chemical ligation of peptides by using the sulfamylbutyryl linker as a mildly activating group capable of participating in ligation. When the peptidyl N-methylsulfonamide is directly added with excess thiols to ligation reactions, the speed of reaction is comparable to native chemical ligation.

Chemical labelling of active serum thioester proteins for quantification.

The complement serum proteins C3 and C4 and the protease inhibitor α-2 macroglobulin are all members of the C3/α-2M thioester protein family, an evolutionarily ancient and conserved family that contains an intrachain thioester bond. The chemistry of the thioester bond is a key to the function of the thioester proteins. All these proteins function by covalently linking to their target by acyl transfer of the protein via the thioester moiety.

The influence of different lipid environments on the structure and function of the hepatitis C virus p7 ion channel protein.

Abstract The hepatitis C virus (HCV) encodes the p7 protein that oligomerizes to form an ion channel. The 63 amino acid long p7 monomer is an integral membrane protein predominantly found in the endoplasmic reticulum (ER). Although it is currently unknown whether p7 is incorporated into secreted virions, its presence is crucial for the release of infectious virus.

Native chemical ligation with Nalpha acyl transfer auxiliaries.

Native chemical ligation (NCL) is a simple procedure that enables synthetic access to many proteins and is increasingly harnessed to study protein structure and function. However, the generality of this method is limited by the requirement for cysteine residues suitably positioned throughout the target protein. Auxiliary approaches have been developed to overcome this limitation, wherein a removable group is introduced at the amino terminus of a peptide conveying ligation properties comparable to cysteine.

Cholesterol secosterol adduction inhibits the misfolding of a mutant prion protein fragment that induces neurodegeneration.

[Image: see text] Cholesterol sterol aldehydes inhibit the misfolding of a prion protein fragment that induces GSS in mice. Atheronal-B completely inhibits the α to β-form transformation of MoPrP(89-143, P101L) a mechanism that involves adduction to the protein. This result offers a paradigm shift in lipid aldehyde induced protein misfolding and offers a new molecular scaffold on which to develop new potential prion disease therapeutics

A chemical approach to immunoprotein engineering: chemoselective functionalization of thioester proteins in their native state.

Less than 6 feet under: Serum proteins C3, C4, and alpha(2)M each contain a thioester domain buried within a hydrophobic pocket, which is thought to shield the labile thioester from hydrolysis. Herein, we make use of the inherent reactivity of the hydrazide for thioester moieties to chemoselectively label these crucial serum regulators in their native conformation; this demonstrates that access to the thioester site is much greater than previously supposed.

Orthogonal ligation: a three piece assembly of a PNA-peptide-PNA conjugate.

A PNA-peptide-PNA conjugate was assembled from three fragments using a combination of native chemical ligation and an orthogonal, auxiliary-mediated ligation.

Crystal structures of histone demethylase JMJD2A reveal basis for substrate specificity.

Post-translational histone modification has a fundamental role in chromatin biology and is proposed to constitute a 'histone code' in epigenetic regulation. Differential methylation of histone H3 and H4 lysyl residues regulates processes including heterochromatin formation, X-chromosome inactivation, genome imprinting, DNA repair and transcriptional regulation. The discovery of lysyl demethylases using flavin (amine oxidases) or Fe(II) and 2-oxoglutarate as cofactors (2OG oxygenases) has changed the view of methylation as a stable epigenetic marker.

Exploiting the defensive sugars of HIV-1 for drug and vaccine design.

The sustained effort towards developing an antibody vaccine against HIV/AIDS has provided much of our understanding of viral immunology. It is generally accepted that one of the main barriers to antibody neutralization of HIV is the array of protective structural carbohydrates that covers the antigens on the virus's surface. Intriguingly, however, recent findings suggest that these carbohydrates, which have evolved to protect HIV and promote its transmission, are also attractive therapeutic targets.