S. Kulothungan scite author profile

Protein folding and unfolding are complex phenomena, and it is accepted that multidomain proteins generally follow multiple pathways. Maltose-binding protein (MBP) is a large (a two-domain, 370-amino acid residue) bacterial periplasmic protein involved in maltose uptake. Despite the large size, it has been shown to exhibit an apparent two-state equilibrium unfolding in bulk experiments. Single-molecule studies can uncover rare events that are masked by averaging in bulk studies. Here, we use single-molecule force spectroscopy to study the mechanical unfolding pathways of MBP and its precursor protein (preMBP) in the presence and absence of ligands. Our results show that MBP exhibits kinetic partitioning on mechanical stretching and unfolds via two parallel pathways: one of them involves a mechanically stable intermediate (path I) whereas the other is devoid of it (path II). The apoMBP unfolds via path I in 62% of the mechanical unfolding events, and the remaining 38% follow path II. In the case of maltose-bound MBP, the protein unfolds via the intermediate in 79% of the cases, the remaining 21% via path II. Similarly, on binding to maltotriose, a ligand whose binding strength with the polyprotein is similar to that of maltose, the occurrence of the intermediate is comparable (82% via path I) with that of maltose. The precursor protein preMBP also shows a similar behavior upon mechanical unfolding. The percentages of molecules unfolding via path I are 53% in the apo form and 68% and 72% upon binding to maltose and maltotriose, respectively, for preMBP. These observations demonstrate that ligand binding can modulate the mechanical unfolding pathways of proteins by a kinetic partitioning mechanism. This could be a general mechanism in the unfolding of other large two-domain ligand-binding proteins of the bacterial periplasmic space.Small proteins (with fewer than 100 amino acids) are still under the scrutiny of having smooth versus the rough energy landscape; however, for proteins larger than 100 amino acid residues it is generally believed that they follow multiple pathways involving one or many intermediates during protein unfolding (1-4). Contrary to this notion, there exist few exceptions among large proteins, for example, Borrelia burgdorferi VlsE (5), Alteromonas haloplanctis ␣-amylase (6), and maltosebinding protein (MBP) 2 (7), which are shown to exhibit an apparent two-state equilibrium unfolding pathway in bulk solution. Very recent single-molecule pulling studies showed that out-of-equilibrium mechanical unfolding of MBP is very complex and consists of on-pathway sequential intermediates (8, 9). Our earlier studies on MBP have shown the existence of intermediates during the folding pathway of MBP (10, 11). Traditional bulk biophysical techniques like fluorescence, time-resolved unfolding and folding probe ensembles of molecules and hence suffer many drawbacks compared with methods that probe one molecule at a time. Therefore, single-molecule studies on protein folding/unfolding have proved vital in givin...

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Effect of Signal Peptide on Stability and Folding of Escherichia coli Thioredoxin

Singh

Sharma

Kulothungan

et al. 2013

PLoS ONE

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The signal peptide plays a key role in targeting and membrane insertion of secretory and membrane proteins in both prokaryotes and eukaryotes. In E. coli, recombinant proteins can be targeted to the periplasmic space by fusing naturally occurring signal sequences to their N-terminus. The model protein thioredoxin was fused at its N-terminus with malE and pelB signal sequences. While WT and the pelB fusion are soluble when expressed, the malE fusion was targeted to inclusion bodies and was refolded in vitro to yield a monomeric product with identical secondary structure to WT thioredoxin. The purified recombinant proteins were studied with respect to their thermodynamic stability, aggregation propensity and activity, and compared with wild type thioredoxin, without a signal sequence. The presence of signal sequences leads to thermodynamic destabilization, reduces the activity and increases the aggregation propensity, with malE having much larger effects than pelB. These studies show that besides acting as address labels, signal sequences can modulate protein stability and aggregation in a sequence dependent manner.

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SecB-Mediated Protein Export Need Not Occur via Kinetic Partitioning

Krishnan

Kulothungan

Patra

et al. 2009

Journal of Molecular Biology

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Effect of Crowding Agents, Signal Peptide, and Chaperone SecB on the Folding and Aggregation ofE. coliMaltose Binding Protein

Kulothungan¹,

Das²,

Johnson³

et al. 2009

Langmuir

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SecB, a soluble cytosolic chaperone component of the Sec export pathway, binds to newly synthesized precursor proteins and prevents their premature aggregation and folding and subsequently targets them to the translocation machinery on the membrane. PreMBP, the precursor form of maltose binding protein, has a 26-residue signal sequence attached to the N-terminus of MBP and is a physiological substrate of SecB. We examine the effect of macromolecular crowding and SecB on the stability and refolding of denatured preMBP and MBP. PreMBP was less stable than MBP (DeltaT(m )= 7 +/- 0.5 K) in both crowded and uncrowded solutions. Crowding did not cause any substantial changes in the thermal stability of MBP (DeltaT(m )= 1 +/- 0.4 K) or preMBP (DeltaT(m )= 0 +/- 0.6 K), as observed in spectroscopically monitored thermal unfolding experiments. However, both MBP and preMBP were prone to aggregation while refolding under crowded conditions. In contrast to MBP aggregates, which were amorphous, preMBP aggregates form amyloid fibrils. Under uncrowded conditions, a molar excess of SecB was able to completely prevent aggregation and promote disaggregation of preformed aggregates of MBP. When a complex of the denatured protein and SecB was preformed, SecB could completely prevent aggregation and promote folding of MBP and preMBP even in crowded solution. Thus, in addition to maintaining substrates in an unfolded, export-competent conformation, SecB also suppresses the aggregation of its substrates in the crowded intracellular environment. SecB is also able to promote passive disaggregation of macroscopic aggregates of MBP in the absence of an energy source such as ATP or additional cofactors. These experiments also demonstrate that signal peptide can greatly influence protein stability and aggregation propensity.

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Selective determination of mimosine and its dihydroxypyridinyl derivative in plant systems

Lalitha

Kulothungan

2006

Amino Acids

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Our observations on the growth stimulatory nature of mimosine, (beta-(3-hydroxy-4-pyridon-1-yl)-L-alanine), the toxic non-protein plant amino acid, in some model experimental systems, warranted sensitive and selective routine estimations. For the determination of both mimosine and DHP, an indirect spectrophotometric method was developed based on their individual reaction with known excess of DZSAM and by estimating the remaining DZSAM with N-(1-naphthyl)ethylene-diamine (NEDA). The resultant decrease in the secondary coupled product was measured at 540 nm. On equimolar basis, DHP had 40% of the reactivity of mimosine while interference from other relevant compounds was 15-35%. The determination of mimosine and DHP in tissue samples under different physiological conditions was effected after paper chromatographic separation of mimosine and DHP with distinctly differing Rf, from other compounds. The indirect method is superior in terms of absolute selectivity, sensitivity and ease of applicability with linear decreases in absorbance, proportional to increasing concentrations of mimosine from 0.1 to 0.75 microM or DHP from 0.2 to 1.5 microM and with recoveries of 99.2 to 100.5%.

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S. Kulothungan

Ligand-modulated Parallel Mechanical Unfolding Pathways of Maltose-binding Proteins

Effect of Signal Peptide on Stability and Folding of Escherichia coli Thioredoxin

SecB-Mediated Protein Export Need Not Occur via Kinetic Partitioning

Effect of Crowding Agents, Signal Peptide, and Chaperone SecB on the Folding and Aggregation ofE. coliMaltose Binding Protein

Selective determination of mimosine and its dihydroxypyridinyl derivative in plant systems

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