Ron Poet scite author profile

We show that beta-hairpins can be divided into four classes, each with a number of members. Hairpins from a single class are readily interconverted by loss or gain of hydrogen bonds, but interconversion between classes requires complete unzipping and reformation of the entire beta-hairpin. Sibanda & Thornton [(1985) Nature (London) 316, 170-174] have classified beta-hairpins as either two-residue, three-residue, four-residue etc., loops. We point out that their nomenclature, by itself, gives rise to ambiguities, but that, if the class (one of the four mentioned above) is also specified, the description of beta-hairpins becomes straightforward. A range of proteins of known three-dimensional structure has been examined; it provides examples of hairpins of each of the four classes and give some indication of their frequency of occurrence. The distribution observed is substantially different from that described by Sibanda & Thornton [(1985) Nature (London) 316, 170-174].

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Loops, bulges, turns and hairpins in proteins

Milner‐White

Poet

1987

Trends in Biochemical Sciences

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Coulombic interactions between partially charged main-chain atoms not hydrogen-bonded to each other influence the conformations of α-helices and antiparallel β-sheet. A new method for analysing the forces between hydrogen bonding groups in proteins includes all the Coulombic interactions

Maccallum

Poet

Milner‐White

1995

Journal of Molecular Biology

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Coulombic attractions between partially chargedmain-chain atoms stabilise the right-handed twist found in most β-strands

Maccallum

Poet

Milner‐White

1995

Journal of Molecular Biology

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Ron Poet

One type of gamma-turn, rather than the other gives rise to chain-reversal in proteins

Four classes of β-hairpins in proteins

Loops, bulges, turns and hairpins in proteins

Coulombic interactions between partially charged main-chain atoms not hydrogen-bonded to each other influence the conformations of α-helices and antiparallel β-sheet. A new method for analysing the forces between hydrogen bonding groups in proteins includes all the Coulombic interactions

Coulombic attractions between partially chargedmain-chain atoms stabilise the right-handed twist found in most β-strands

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