Integral membrane proteins: bottom-up, top-down and structural proteomics

Kar, Upendra K.; Simonian, Margaret; Whitelegge, Julian P.

doi:10.1080/14789450.2017.1359545

Cited by 43 publications

(47 citation statements)

References 77 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Moreover, levels of cytoskeletal proteins like actin and tubulin are similar to those seen in bulk proteomics experiments (Shin et al, 2013). By contrast, as in most shotgun mass spectrometry experiments, membrane proteins are underrepresented relative to their presence in the genome (Kar et al, 2017). Membrane proteins are generally expressed at low levels, however, which also contributes to our inability to see more than a few such proteins (e.g., ATP1A1, SLC17A8, and ATP2B2).…”

Section: Discussionmentioning

confidence: 99%

Single-cell proteomics reveals changes in expression during hair-cell development

Zhu

Scheibinger

Ellwanger

et al. 2019

eLife

View full text Add to dashboard Cite

Hearing and balance rely on small sensory hair cells that reside in the inner ear. To explore dynamic changes in the abundant proteins present in differentiating hair cells, we used nanoliter-scale shotgun mass spectrometry of single cells, each ~1 picoliter, from utricles of embryonic day 15 chickens. We identified unique constellations of proteins or protein groups from presumptive hair cells and from progenitor cells. The single-cell proteomes enabled the de novo reconstruction of a developmental trajectory using protein expression levels, revealing proteins that greatly increased in expression during differentiation of hair cells (e.g., OCM, CRABP1, GPX2, AK1, GSTO1) and those that decreased during differentiation (e.g., TMSB4X, AGR3). Complementary single-cell transcriptome profiling showed corresponding changes in mRNA during maturation of hair cells. Single-cell proteomics data thus can be mined to reveal features of cellular development that may be missed with transcriptomics.

show abstract

Section: Discussionmentioning

confidence: 99%

Single-cell proteomics reveals changes in expression during hair-cell development

Zhu

Scheibinger

Ellwanger

et al. 2019

eLife

View full text Add to dashboard Cite

show abstract

“…In recent years, in vitro XL-MS studies of protein complexes have produced enormous amounts of molecular details for understanding their architectures, functions and regulation 11,12,19,27,28,36,40–42,155,164,165 . However, it is more biologically relevant to perform in vivo cross-linking experiments as they can provide a more authentic map of protein-protein interactions (PPIs) occurring in native cellular environments 30 .…”

Section: Xl-ms Strategies For Structural Analysis Of Protein Complmentioning

confidence: 99%

“…In recent years, significant technological advancements in XL-MS studies have dramatically propelled the field forward, enabling a wide range of applications in vitro and in vivo , not only at the level of protein complexes but also at the proteome scale. Several recent reviews have focused on specific aspects of XL-MS including reagent design 39 and applications 12,19,27,28,40–42 . This review offers an overview of recent developments in XL-MS studies especially during the last three years.…”

mentioning

confidence: 99%

Cross-Linking Mass Spectrometry: An Emerging Technology for Interactomics and Structural Biology

2017

View full text Add to dashboard Cite

show abstract

“…Since peptide-based and bottom-up bioanalytical methods can often not properly distinguish among discrete proteoforms, such as individual isoforms or post-translationally modified protein variants, biochemical approaches using top-down proteomics with a focus on the mass spectrometric characterization of intact protein species can be advantageous [49,50,51]. Importantly, specific forms of top-down proteomics can provide data for accurate protein mass determination and detailed information on the identity of specific protein isoforms and their PTMs [52,53,54], making it an ideal investigative tool of modern protein biochemistry for determining the structure and function of macromolecular protein complexes [55,56,57]. In this review, the usage of top-down proteomics in the field of skeletal muscle biochemistry is outlined with special emphasis on gel-based techniques, especially 2DGE, for studying normal, adapting and aging muscles.…”

Section: Introductionmentioning

confidence: 99%

Characterization of Contractile Proteins from Skeletal Muscle Using Gel-Based Top-Down Proteomics

et al. 2019

View full text Add to dashboard Cite

The mass spectrometric analysis of skeletal muscle proteins has used both peptide-centric and protein-focused approaches. The term ‘top-down proteomics’ is often used in relation to studying purified proteoforms and their post-translational modifications. Two-dimensional gel electrophoresis, in combination with peptide generation for the identification and characterization of intact proteoforms being present in two-dimensional spots, plays a critical role in specific applications of top-down proteomics. A decisive bioanalytical advantage of gel-based and top-down approaches is the initial bioanalytical focus on intact proteins, which usually enables the swift identification and detailed characterisation of specific proteoforms. In this review, we describe the usage of two-dimensional gel electrophoretic top-down proteomics and related approaches for the systematic analysis of key components of the contractile apparatus, with a special focus on myosin heavy and light chains and their associated regulatory proteins. The detailed biochemical analysis of proteins belonging to the thick and thin skeletal muscle filaments has decisively improved our biochemical understanding of structure-function relationships within the contractile apparatus. Gel-based and top-down proteomics has clearly established a variety of slow and fast isoforms of myosin, troponin and tropomyosin as excellent markers of fibre type specification and dynamic muscle transition processes.

show abstract

Integral membrane proteins: bottom-up, top-down and structural proteomics

Cited by 43 publications

References 77 publications

Single-cell proteomics reveals changes in expression during hair-cell development

Single-cell proteomics reveals changes in expression during hair-cell development

Cross-Linking Mass Spectrometry: An Emerging Technology for Interactomics and Structural Biology

Characterization of Contractile Proteins from Skeletal Muscle Using Gel-Based Top-Down Proteomics

Contact Info

Product

Resources

About