E ankyrins have distinct and non-overlapping functions in specific membrane domains coordinated by ankyrin-spectrin networks (Mohler et al., 2002; Abdi et al., 2006; He et al., 2013). As ankyrins are adaptor Methoxyacetic acid web Proteins linking membrane proteins for the underlying cytoskeleton, ankyrin dysfunction is closely associated to significant human diseases. For instance, loss-of-function mutations may cause hemolytic anemia (Gallagher, 2005), many cardiac illnesses including several cardiac arrhythmia syndromes and sinus node dysfunction (Mohler et al., 2003, 2007; Le Scouarnec et al., 2008; Hashemi et al., 2009), bipolar disorder (Ferreira et al., 2008; Dedman et al., 2012; Rueckert et al., 2013), and autism spectrum disorder (Iqbal et al., 2013; Shi et al., 2013).Wang et al. eLife 2014;3:e04353. DOI: 10.7554/eLife.1 ofResearch articleBiochemistry | Biophysics and structural biologyeLife digest Proteins are made up of smaller sized building blocks called amino acids which can be linkedto form long chains that then fold into particular shapes. Each protein gets its distinctive identity from the quantity and order of the amino acids that it consists of, but diverse proteins can contain similar arrangements of amino acids. These comparable sequences, referred to as motifs, are usually brief and generally mark the websites within proteins that bind to other molecules or proteins. A single protein can include lots of motifs, such as a number of repeats of your identical motif. One particular frequent motif is named the ankyrin (or ANK) repeat, which is discovered in 100s of proteins in various species, including bacteria and humans. Ankyrin proteins perform a selection of crucial functions, for instance connecting proteins within the cell surface membrane to a scaffold-like structure underneath the membrane. Proteins containing ankyrin repeats are identified to interact using a diverse array of other proteins (or targets) that happen to be various in size and shape. The 24 repeats discovered in human ankyrin proteins seem to possess primarily remained unchanged for the last 500 million years. As such, it remains unclear how the conserved ankyrin repeats can bind to such a wide variety of protein targets. Now, Wang, Wei et al. have uncovered the three-dimensional structure of ankyrin repeats from a human ankyrin protein even though it was bound either to a regulatory fragment from a further ankyrin protein or to a area of a target protein (which transports sodium ions in and out of cells). The ankyrin repeats had been shown to kind an extended `left-handed helix’: a structure that has also been observed in other proteins with diverse repeating motifs. Wang, Wei et al. discovered that the ankyrin protein fragment bound towards the inner surface in the a part of the helix formed by the first 14 ankyrin repeats. The target protein region also bound to the helix’s inner surface. Wang, Wei et al. show that this surface includes several binding sites that will be employed, in diverse combinations, to permit ankyrins to interact with diverse proteins. Other proteins with extended 58864-81-6 Protocol sequences of repeats are widespread in nature, but uncovering the structures of these proteins is technically difficult. Wang, Wei et al.’s findings could reveal new insights in to the functions of several of such proteins within a wide selection of living species. Moreover, the new structures could enable clarify why certain mutations within the genes that encode ankyrins (or their binding targets) can cause various illnesses in humans–including heart ailments and psychiatric disorders.DOI: 10.7554/eLife.04353.The wide.
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