J. David Lawson scite author profile

Proteins can exist in a trinity of structures: the ordered state, the molten globule and the random coil. Five examples follow which suggest that native protein structure can correspond to any of the three states (not just the ordered state) and that protein function can arise from any of the three states and their transitions. 1. In a process that likely mimics infection, fd phage converts from the ordered into the disordered molten globular state. 2. Nucleosome hyperacetylation is crucial to DNA replication and transcription; this chemical modification greatly increases the net negative charge of the nucleosome core particle. We propose that the increased charge imbalance promotes its conversion to a much less rigid form. 3. Clusterin contains an ordered domain and also a native molten globular region. The molten globular domain likely functions as a proteinaceous detergent for cell remodeling and removal of apoptotic debris. 4. In a critical signaling event, a helix in calcineurin becomes bound and surrounded by calmodulin, thereby turning on calcineurin's serine/threonine phosphatase activity.Locating the calcineurin helix within a region of disorder is essential for enabling calmodulin to surround its target upon binding. 5. Calsequestrin regulates calcium levels in the sarcoplasmic reticulum by binding about 50 ions/molecule. Disordered polyanion tails at the carboxy terminus bind many of these calcium ions, perhaps without adopting a unique structure. In addition to these examples, 16 more proteins with native disorder will be discussed. These disordered regions include molecular recognition domains, protein folding inhibitors, flexible linkers, entropic springs, entropic clocks and entropic bristles.Motivated by such examples of intrinsic disorder, we are studying the relationships between amino acid sequence and order/disorder, and from this information we are predicting intrinsic order/disorder from amino acid sequence.The sequence/structure relationships indicate that disorder is an encoded property, and the predictions strongly suggest that proteins in nature are much richer in intrinsic disorder than are those in the Protein Data Bank. Recent predictions on 29 genomes indicate that proteins from eucaryotes apparently have more intrinsic disorder than those from either bacteria or archaea, with typically > 30 % of eucaryotic proteins having disordered regions of length = 50 consecutive residues.

show abstract

Intrinsic Disorder and Protein Function

Dunker

et al. 2002

View full text Add to dashboard Cite

The dominant view of protein structure-function is that an amino acid sequence specifies a (mostly) fixed three-dimensional (3-D) structure that is a prerequisite to protein function. In contrast to the dominant view, many proteins display functions requiring the disordered state. Our purpose here is to provide a catalogue of disorder-function relationships. The very important molecular details in each example can be obtained from the references provided or from several excellent reviews and commentaries (1-9).For ordered protein, the ensemble members all have the same time-averaged canonical set of Ramachandran angles along their backbones. For intrinsically disordered protein, the ensemble members have different (and typically dynamic) Ramachandran angles. Such disorder has been characterized by a variety of methods including x-ray crystallography, NMR spectroscopy, CD spectroscopy, and protease sensitivity to name several. Each of these methods has advantages and limitations that are discussed in more detail elsewhere (10). Although a few disordered proteins and regions have been characterized by several methods as noted below, it would be useful to have more examples with multiple methods of characterization.In attempts to discover generalities from the known disorder examples, we recently used bioinformatics coupled with data mining (11)(12)(13)(14)(15). The results suggested that thousands of natively disordered proteins exist, representing a very substantial fraction of the proteins in the commonly used sequence databases (13,16). From these and related database predictions and from a set of functionally important disordered proteins, Wright and Dyson (17) called for a reassessment of the view that 3-D structure is always a prerequisite to protein function.In this article, we discuss the following topics: 1. how common is intrinsic disorder?; 2. intrinsic disorder in vivo; 3. functional annotations for 90 proteins having physically characterized regions of disorder; 4. disordered regions without known function 5. a structurefunction proposal called "the protein trinity"; 6. the functional repertoires of ordered and disordered protein, and 7. the need for a Disordered Protein Database (DisProt) to complement the Protein Data Bank (PDB).How Common is Intrinsic Disorder? A series of predictors of natural disordered regions (PONDRs) have been developed using amino acid sequence as inputs and giving intrinsic order or disorder tendencies as outputs (11,14,15,18,19). The various PONDRs are distinguished by different training sets, by different data representations for their inputs, and by different machine learning models for their development.For PONDR VL-XT 1 , currently the best characterized of the PONDRs, only 6% of more than 900 non-homologous proteins spanning PDB gave false positive predictions of disorder ≥ 40 consecutive amino acids in length. Even this 6% may be an over-estimate of the false positive error rate, however, because many of these predicted disordered regions are involved in ligand bindin...

show abstract

Intrinsic Disorder in Cell-signaling and Cancer-associated Proteins

Iakoucheva

Brown

Lawson

et al. 2002

Journal of Molecular Biology

1,128

1,090

View full text Add to dashboard Cite

Acquired Resistance to KRAS^G12C Inhibition in Cancer

et al. 2021

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

J. David Lawson

Intrinsically disordered protein

Intrinsic Disorder and Protein Function

Intrinsic Disorder in Cell-signaling and Cancer-associated Proteins

Acquired Resistance to KRAS^G12C Inhibition in Cancer

Contact Info

Product

Resources

About

J. David Lawson

Intrinsically disordered protein

Intrinsic Disorder and Protein Function

Intrinsic Disorder in Cell-signaling and Cancer-associated Proteins

Acquired Resistance to KRASG12C Inhibition in Cancer

Contact Info

Product

Resources

About

Acquired Resistance to KRAS^G12C Inhibition in Cancer