• Title/Summary/Keyword: ubiquitin D

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3D Structure of STAM1 UIM-ubiquitin Complex Using RosettaDock

  • Lim, Jong-Soo;Yi, Jong-Jae;Ahn, Hee-Chul;Rhee, Jin-Kyu;Son, Woo-Sung
    • Journal of the Korean Magnetic Resonance Society
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    • v.15 no.1
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    • pp.80-89
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    • 2011
  • 3D structures of STAM1 UIM-ubiquitin complex were presented to predict and analyze the interaction between UIM and ubiquitin. To generate the protein-peptide complex structure, the RosettaDock method was used with and without NMR restraints. High resolution complex structure was acquired successfully and evaluated electrostatic interaction in the protein-peptide binding with several charged residues at the binding site. From docking results, the Rosettadock method could be useful to acquire essential information of protein-protein or protein-peptide interaction with minimal biological evidences.

Mind Bomb1 and DeltaD are Localized into Autophagosome after Endocytosis in Zebrafish during Neurogenesis

  • Kim, Min-Jung
    • Development and Reproduction
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    • v.15 no.3
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    • pp.215-221
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    • 2011
  • Endocytosis of the Notch ligand, DeltaD, by mind bomb1 is indispensable for activation of Notch in cell fate determination, proliferation, and differentiation during zebrafish neurogenesis. Loss of mind bomb1 activity as an E3 Ubiquitin ligase causes the accumulation of deltaD at the plasma membrane and results in the ectopic neurogenic phenotype by activation of Notch in early zebrafish embryogenesis. However, the regulatory mechanism of deltaD during neurogenesis is not identified yet. This study aims to analyze the pathway of mib1 and deltaD after endocytosis in vivo during zebrafish embryogenesis. Mind bomb1 and deltaD are co-localized into autophagosome and mutant form of mind bomb1 fails to cargo deltaD into autophagosomes. These findings suggest that mind bomb I mediates deltaD regulation by autophagy in an ubiquitin-dependent manner during zebrafish embryogenesis.

Over-Expression of Phospholipase D Isozymes Down-Regulates Protein Kinase CKII Activity via Proteasome-Dependent CKIIβ Degradation in NIH3T3 Cells

  • Yoon, Soo-Hyun;Min, Do Sik;Bae, Young-Seuk
    • Molecules and Cells
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    • v.27 no.3
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    • pp.299-305
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    • 2009
  • Over-expression of phospholipase D (PLD) 1 or PLD2 down-regulated CKII activity in NIH3T3 cells. The same results were found with catalytically inactive mutants of PLD isozymes, indicating that the catalytic activity of PLD is not required for PLD-mediated CKII inhibition. Consistent with this, 1-butanol did not alter CKII activity. The reduction in CKII activity in PLD-over-expressing NIH3T3 cells was due to reduced protein level, but not mRNA level, of the $CKII{\beta}$ subunit. This PLD-induced $CKII{\beta}$ degradation was mediated by ubiquitin-proteasome machinery, but MAP kinase and mTOR were not involved in $CKII{\beta}$ degradation. PLD isozymes interacted with the $CKII{\beta}$ subunit. Immunocytochemical staining revealed that PLD and $CKII{\beta}$ colocalize in the cytoplasm of NIH3T3 cells, especially in the perinuclear region. PLD binding to $CKII{\beta}$ inhibited $CKII{\beta}$ autophosphorylation, which is known to be important for $CKII{\beta}$ stability. In summary, the current data indicate that PLD isozymes can down-regulate CKII activity through the acceleration of $CKII{\beta}$ degradation by ubiquitin-proteasome machinery.

Recombinant Expression, Isotope Labeling and Purification of the Vitamin D Receptor Binding Peptide

  • Chae, Young-Kee;Singarapu, Kiran;Westler, W. Milo;Markley, John L.
    • Bulletin of the Korean Chemical Society
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    • v.32 no.12
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    • pp.4337-4340
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    • 2011
  • The vitamin D receptor binding peptide, VDRBP, was overexpressed as a fused form with the ubiquitin molecule in Rosetta(DE3)pLysS, a protein production strain of Escherichia coli harboring an induction controller plasmid. The fusion protein was bound to the immobilized metal ions, and the denaturation and renaturation of the fusion protein were performed as a part of the purification procedure. After the elution of the fusion protein, the peptide hormone was released from its fusion partner by using yeast ubiquitin hydrolase (YUH), and subsequently purified by reverse phase chromatography. The purity of the resulting peptide fragment was checked by MALDI-TOF mass and NMR spectroscopy. The final yields of the target peptide were around 5 and 2 mg per liter of LB and minimal media, respectively. The recombinant expression and purification of this peptide will enable structural and functional studies using multidimensional NMR spectroscopy and X-ray crystallography.

Crystal Structure of p97-N/D1 Hexamer Complexed with FAF1 UBX Domain

  • Wonchull Kang
    • Journal of the Korean Chemical Society
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    • v.67 no.5
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    • pp.348-352
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    • 2023
  • p97, a universally conserved AAA+ ATPase, holds a central position in the ubiquitin-proteasome system, orchestrating myriad cellular activities with significant therapeutic implications. This protein primarily interacts with a diverse set of adaptor proteins through its N-terminal domain (NTD), which is structurally located at the periphery of the D1 hexamer ring. While there have been numerous structural elucidations of p97 complexed with adaptor proteins, the stoichiometry has remained elusive. In this work, we present the crystal structure of the p97-N/D1 hexamer bound to the FAF1-UBX domain at a resolution of 3.1 Å. Our findings reveal a 6:6 stoichiometry between the p97 hexamer and FAF1-UBX domain, deepening our understanding from preceding structural studies related to p97-NTD and UBX domain-containing proteins. These insights lay the groundwork for potential therapeutic interventions addressing cancer and neurodegenerative diseases.

Protein Structural Characterization by Hydrogen/Deuterium Exchange Mass Spectrometry with Top-down Electron Capture Dissociation

  • Yu, Hai Dong;Ahn, Seonghee;Kim, Byungjoo
    • Bulletin of the Korean Chemical Society
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    • v.34 no.5
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    • pp.1401-1406
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    • 2013
  • This study tested the feasibility of observing H/D exchange of intact protein by top-down electron capture dissociation (ECD) mass spectrometry for the investigation of protein structure. Ubiquitin is selected as a model system. Local structural information was obtained from the deuteration levels of c and $z^{\cdot}$ ions generated from ECD. Our results showed that ${\alpha}$-helix region has the lowest deuteration level and the C-terminal fraction containing a highly mobile tail has the highest deuteration level, which correlates well with previous X-Ray and HDX/NMR analyses. We studied site-specific H/D exchange kinetics by monitoring H/D exchange rate of several structural motives of ubiquitin. Two hydrogen bonded ${\beta}$-strands showed similar HDX rates. However, the outer ${\beta}$-strand always has higher deuteration level than the inner ${\beta}$-strand. The HDX rate of the turn structure (residues 8-11) is lower than that of ${\beta}$-strands (residues 1-7 and residues 12-17) it connects. Although isotopic distribution gets broader after H/D exchange which results in a limited number of backbone cleavage sites detected, our results demonstrate that this method can provide valuable detailed structural information of proteins. This approach should also be suitable for the structural investigation of other unknown proteins, protein conformational changes, as well as protein-protein interactions and dynamics.

Crystal Structure of p97 N-D1 Hexamer in Complex with p47 UBX Domain

  • Thang Quyet Nguyen;Wonchull Kang
    • Journal of the Korean Chemical Society
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    • v.68 no.1
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    • pp.25-31
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    • 2024
  • The p97 adenosine triphosphatase is a key player in protein homeostasis, responsible for unfolding ubiquitylated substrates. It engages with various adaptor proteins through its N-terminal domain, with the p97-p47 complex attracting particular attention for its involvement in membrane remodeling. Although the structures of p97 in complex with the Ubiquitin regulatory X (UBX) domain from various adaptors have been reported, the stoichiometry is conflicting. Here, we report the crystal structure of the p97 N-D1 hexamer in complex with the p47 UBX domain at a resolution of 2.7 Å. The structure reveals a stoichiometry of 6:6 between the p97 N-D1 and the p47 UBX domain. These findings provide valuable insights into the binding stoichiometry of p97 N-D1 and p47 UBX domain, which are crucial for understanding the role of p97 and adaptor proteins in cellular processes such as the ubiquitin-proteasome pathway, membrane fusion, and cell cycle regulation.

Purification and NMR Studies of RNA Polymerase II C-Terminal Domain Phosphatase 1 Containing Ubiquitin Like Domain

  • Ko, Sung-Geon;Lee, Young-Min;Yoon, Jong-Bok;Lee, Weon-Tae
    • Bulletin of the Korean Chemical Society
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    • v.30 no.5
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    • pp.1039-1042
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    • 2009
  • RNA polymerase II C-terminal domain phosphatase 1 containing ubiquitin like domain (UBLCP1) has been identified as a regulatory molecule of RNA polymerase II. UBLCP1 consists of ubiquitin like domain (UBL) and phosphatase domain homologous with UDP and CTD phosphatase. UBLCP1 was cloned into the E.coli expression vectors, pET32a and pGEX 4T-1 with TEV protease cleavage site and purified using both affinity and gel-filtration chromatography. Domains of UBLCP1 protein were successfully purified as 7 mg/500 mL (UBLCP1, 36.78 KDa), 32 mg/500 mL (UBL, 9 KDa) and 8 mg/500 mL (phosphatase domain, 25 KDa) yielded in LB medium, respectively. Isotope-labeled samples including triple-labeled ($^2H/^{15}N/^{13}C$) UBLCP1 were also prepared for hetero-nuclear NMR experiments. $^{15}N-^{1}H$ 2D-HSQC spectra of UBLCP1 suggest that both UBL and phosphatase domain are properly folded and structurally independent each other. These data will promise us further structural investigation of UBLCP1 by NMR spectroscopy and/or X-ray crystallography.

Polyubiquitin-Proteasomal Degradation of Leucine-Rich Repeat Kinase 2 Wildtype and G2019S

  • Park, Sangwook
    • Biomedical Science Letters
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    • v.27 no.3
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    • pp.182-186
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    • 2021
  • Parkinson disease (PD) is becoming one of the most neurodegenerative disorder worldwide. The deposited aggregates have been connected in the pathophysiology of PD, which are degraded either by ubiquitin-proteasomal system (UPS) or autophagy-lysosomal pathway (ALP). Leucin-rich repeat kinase 2 (LRRK2), one of the neurodegenerative proteins of PD is also stringently controlled by both UPS and ALP degradation as well. However, the polyubiquitination pattern of LRRK2 aggregates is largely unknown. Here, we found that K63-linked polyubiquitinations of G2019S mutant, most familial variant for PD, is highly enhanced compared to those of wild type LRRK2 (WT). In addition, in the presence of overexpressed p62/SQSTM-1, ubiquitination of LRRK2 WT or D1994A was reduced, whereas G2019S mutant was not diminished significantly. Therefore, we propose that degradation of G2019S via UPS is more involved with K63-linked ubiquitination than K48-linked ubiquitination, and overexpressed p62/SQSTM-1 does not enhance degradative effect on G2019S variant.

Induction of Muscle Atrophy by Dexamethasone and Hydrogen Peroxide in Differentiated C2C12 Myotubes (C2C12 근관세포에서 dexamethasone 및 hydrogen peroxide에 의한 근위축 유도)

  • Park, Cheol;Jeong, Jin-Woo;Choi, Yung Hyun
    • Journal of Life Science
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    • v.27 no.12
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    • pp.1479-1485
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    • 2017
  • Muscle atrophy due to aging, starvation, and various chronic diseases leads to a decrease in muscle fiber area and density due to reduced muscle protein synthesis and increased protein breakdown. This study investigated the effect of dexamethasone and hydrogen peroxide on the induction of muscle atrophy and expression of atrophy-related genes in differentiated C2C12 myotubes. C2C12 myoblasts were differentiated into myotubes in differentiation medium. During myoblast differentiation, muscle-specific transcription factors, such as myogenin, and MyoD expression increased. Differentiated C2C12 myotubes exposed to noncytotoxic levels of dexamethasone and hydrogen peroxide showed a decrease in myotube diameter, which was associated with up-regulation of muscle-specific ubiquitin ligases, such as muscle atrophy F-box (MAFbx)/atrogin-1 and muscle RING finger-1 (MuRF1), and down-regulation of myogenin and MyoD. These results demonstrated that dexamethasone and hydrogen peroxide induced atrophy through regulation of muscle-specific ubiquitin ligases and muscle-specific transcription factors in C2C12 myotubes. In this study, we confirmed the process of differentiation of C2C12 myoblasts into myotubes in in vitro experiments in the presence of atrophy. This muscle atrophy model of C2C12 cells induced by dexamethasone or hydrogen peroxide seems suited to studies of the mechanism of muscle atrophy suppression and to exploit the experiment for excavating new muscle atrophy.