Your search keyword '"Dondapati, Srujan Kumar"' showing total 8 results

1. A Cost-Effective Pichia pastoris Cell-Free System Driven by Glycolytic Intermediates Enables the Production of Complex Eukaryotic Proteins.

Author

Schloßhauer, Jeffrey L., Dondapati, Srujan Kumar, Kubick, Stefan, and Zemella, Anne

Subjects

PICHIA pastoris, PROTEIN expression, ION channels, RECOMBINANT proteins, G protein coupled receptors, ALTERNATIVE fuels, PROTEINS

Abstract

Cell-free systems are particularly attractive for screening applications and the production of difficult-to-express proteins. However, the production of cell lysates is difficult to implement on a larger scale due to large time requirements, cultivation costs, and the supplementation of cell-free reactions with energy regeneration systems. Consequently, the methylotrophic yeast Pichia pastoris, which is widely used in recombinant protein production, was utilized in the present study to realize cell-free synthesis in a cost-effective manner. Sensitive disruption conditions were evaluated, and appropriate signal sequences for translocation into ER vesicles were identified. An alternative energy regeneration system based on fructose-1,6-bisphosphate was developed and a ~2-fold increase in protein production was observed. Using a statistical experiment design, the optimal composition of the cell-free reaction milieu was determined. Moreover, functional ion channels could be produced, and a G-protein-coupled receptor was site-specifically modified using the novel cell-free system. Finally, the established P. pastoris cell-free protein production system can economically produce complex proteins for biotechnological applications in a short time. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evaluation of the Ion Channel Assembly in a Eukaryotic Cell-Free System Focusing on Two-Pore Domain Potassium Channels K 2P.

Author

Ullrich, Jessica, Ohlhoff, Carsten, Dondapati, Srujan Kumar, Zemella, Anne, and Kubick, Stefan

Subjects

ION channels, POTASSIUM channels, WESTERN immunoblotting, HETERODIMERS, DRUG therapy

Abstract

Oligomeric ion channels are abundant in nature. However, the recombinant expression in cell culture-based systems remains tedious and challenging due to negative side effects, limiting the understanding of their role in health and disease. Accordingly, in this work, we demonstrate the cell-free synthesis (CFS) as an alternative platform to study the assembly of two-pore domain potassium channels (K2P) within endogenous endoplasmic reticulum-derived microsomes. Exploiting the open nature of CFS, we investigate the cotranslational translocation of TREK-2 into the microsomes and suggest a cotranslational assembly with typical single-channel behavior in planar lipid-bilayer electrophysiology. The heteromeric assembly of K2P channels is a contentious matter, accordingly we prove the successful assembly of TREK-2 with TWIK-1 using a biomolecular fluorescence complementation assay, Western blot analysis and autoradiography. The results demonstrate that TREK-2 homodimer assembly is the initial step, followed by heterodimer formation with the nascent TWIK-1, providing evidence of the intergroup heterodimerization of TREK-2 and TWIK-1 in eukaryotic CFS. Since K2P channels are involved in various pathophysiological conditions, including pain and nociception, CFS paves the way for in-depth functional studies and related pharmacological interventions. This study highlights the versatility of the eukaryotic CFS platform for investigating ion channel assembly in a native-like environment. [ABSTRACT FROM AUTHOR]

Published

2023

3. Targeted esterase-induced dye (TED) loading supports direct calcium imaging in eukaryotic cell-free systems.

Author

Dhandapani, Priyavathi, Dondapati, Srujan Kumar, Zemella, Anne, Bräuer, Dennis, Wüstenhagen, Doreen Anja, Mergler, Stefan, and Kubick, Stefan

Published

2021

4. Cell-Free Protein Synthesis: A Promising Option for Future Drug Development.

Author

Dondapati, Srujan Kumar, Stech, Marlitt, Zemella, Anne, and Kubick, Stefan

Subjects

PROTEIN synthesis, DRUG development, MEMBRANE proteins, PROTEIN folding, FUNCTIONAL analysis, RIBOSOMAL proteins

Abstract

Proteins are the main source of drug targets and some of them possess therapeutic potential themselves. Among them, membrane proteins constitute approximately 50% of the major drug targets. In the drug discovery pipeline, rapid methods for producing different classes of proteins in a simple manner with high quality are important for structural and functional analysis. Cell-free systems are emerging as an attractive alternative for the production of proteins due to their flexible nature without any cell membrane constraints. In a bioproduction context, open systems based on cell lysates derived from different sources, and with batch-to-batch consistency, have acted as a catalyst for cell-free synthesis of target proteins. Most importantly, proteins can be processed for downstream applications like purification and functional analysis without the necessity of transfection, selection, and expansion of clones. In the last 5 years, there has been an increased availability of new cell-free lysates derived from multiple organisms, and their use for the synthesis of a diverse range of proteins. Despite this progress, major challenges still exist in terms of scalability, cost effectiveness, protein folding, and functionality. In this review, we present an overview of different cell-free systems derived from diverse sources and their application in the production of a wide spectrum of proteins. Further, this article discusses some recent progress in cell-free systems derived from Chinese hamster ovary and Sf21 lysates containing endogenous translocationally active microsomes for the synthesis of membrane proteins. We particularly highlight the usage of internal ribosomal entry site sequences for more efficient protein production, and also the significance of site-specific incorporation of non-canonical amino acids for labeling applications and creation of antibody drug conjugates using cell-free systems. We also discuss strategies to overcome the major challenges involved in commercializing cell-free platforms from a laboratory level for future drug development. [ABSTRACT FROM AUTHOR]

Published

2020

5. Functional Reconstitution of Membrane Proteins Derived From Eukaryotic Cell-Free Systems.

Author

Dondapati, Srujan Kumar, Lübberding, Henning, Zemella, Anne, Thoring, Lena, Wüstenhagen, Doreen A., and Kubick, Stefan

Subjects

MEMBRANE proteins, SEROTONIN transporters, PROTEIN synthesis, ENDOPLASMIC reticulum, FUNCTIONAL analysis, SODIUM channels, POST-translational modification, ADENOSINE triphosphatase

Abstract

Cell-free protein synthesis (CFPS) based on eukaryotic Sf 21 lysate is gaining interest among researchers due to its ability to handle the synthesis of complex human membrane proteins (MPs). Additionally Sf 21 cell-free systems contain endogenous microsomal vesicles originally derived from the endoplasmic reticulum (ER). After CFPS, MPs will be translocated into the microsomal vesicles membranes present in the lysates. Thus microsomal membranes offer a natural environment for de novo synthesized MPs. Despite the advantage of synthesizing complex MPs with post translational modifications directly into the microsomal membranes without any additional solubilization supplements, batch based Sf 21 cell-free synthesis suffers from low yields. The bottleneck for MPs in particular after the synthesis and incorporation into the microsomal membranes is to analyze their functionality. Apart from low yields of the synthesized MPs with batch based cell-free synthesis, the challenges arise in the form of cytoskeleton elements and peripheral endogenous proteins surrounding the microsomes which may impede the functional analysis of the synthesized proteins. So careful sample processing after the synthesis is particularly important for developing the appropriate functional assays. Here we demonstrate how MPs (native and batch synthesized) from ER derived microsomes can be processed for functional analysis by electrophysiology and radioactive uptake assay methods. Treatment of the microsomal membranes either with a sucrose washing step in the case of human serotonin transporter (hSERT) and sarco/endoplasmic reticulum Ca2+/ATPase (SERCA) pump or with mild detergents followed by the preparation of proteoliposomes in the case of the human voltage dependent anionic channel (hVDAC1) helps to analyze the functional properties of MPs. [ABSTRACT FROM AUTHOR]

Published

2019

6. Cell-free synthesis of human toll-like receptor 9 (TLR9): Optimization of synthesis conditions and functional analysis.

Author

Dondapati, Srujan Kumar, Pietruschka, Georg, Thoring, Lena, Wüstenhagen, Doreen A., and Kubick, Stefan

Subjects

FUNCTIONAL analysis, SYSTEMIC lupus erythematosus, BINDING site assay, PROTEIN expression, NATURAL immunity

Abstract

The Toll-like receptor family belongs to the group of pathogen recognition receptors which is responsible for the discrimination of self and non-self pathogen-associated molecular patterns (PAMP’s). Toll-like receptors play an important role in the innate immunity and defects in protein expression or polymorphism is linked to various diseases such as Systemic Lupus Erythematosus (SLE). The elucidation of the underlying mechanism is crucial for future treatment and therapeutics of toll-like receptor linked diseases. Herein, we report the cell-free synthesis of human Toll-like receptor 9 (hTLR9) using CHO lysate and the continuous exchange cell-free (CECF) synthesis platform. The functionality of this protein was demonstrated by an ELISA binding assay using the ectodomain of TLR9 (TLR9-ECD). [ABSTRACT FROM AUTHOR]

Published

2019

7. Cell‐free production of pore forming toxins: Functional analysis of thermostable direct hemolysin from <italic>Vibrio parahaemolyticus</italic>.

Author

Dondapati, Srujan Kumar, Wüstenhagen, Doreen A., Strauch, Eckhard, and Kubick, Stefan

Subjects

MICROELECTRODES, ELECTRODES, PROTEOMICS, BILAYER lipid membranes, BIOTECHNOLOGY

Abstract

Abstract: The pore forming characteristic of TDH1 and TDH2 variants of thermostable direct hemolysin (TDH), a major toxin involved in the pathogenesis of Vibrio parahaemolyticus, was studied on a planar lipid bilayer painted over individual picoliter cavities containing microelectrodes assembled in a multiarray. Both proteins formed pores upon insertion into the lipid bilayer which was shown as a shift in the conductance from the baseline current. TDH2 protein was able to produce stable currents and the currents were influenced by external factors like concentration, type of salt and voltage. The pore currents were influenced and showed a detectable response in the presence of polymers which makes them suitable for biotechnology applications. [ABSTRACT FROM AUTHOR]

Published

2018

8. Label free optical sensor for Avidin based on single gold nanoparticles functionalized with aptamers.

Author

Hernandez, Frank Jeyson, Dondapati, Srujan Kumar, Ozalp, V. Cengiz, Pinto, Alessandro, O'Sullivan, Ciara K., Klar, Thomas A., and Katakis, Ioannis

Abstract

Optical spectroscopy of a single gold nanoparticle, functionalized with an aptamer, is used to sense the specific binding of avidin. Herewith, the field of single noble metal nanoparticle biosensors is extended to the important field of aptamer based assays. The sensitivity of this initial, but not yet optimized apta-nano-sensor is in the range of 20 nM. Due to its nanoscopic size, this single nanoparticle based apta-sensor may be used in nanoscopic volumes such as in array type assays or even inside cells. (© 2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [ABSTRACT FROM AUTHOR]

Published

2009