Jason L. J. Lin scite author profile

Mitochondria are inherited maternally in most animals, but the mechanisms of selective paternal mitochondrial elimination (PME) are unknown. While examining fertilization in C. elegans, we observe that paternal mitochondria rapidly lose their inner membrane integrity. CPS-6, a mitochondrial endonuclease G, serves as a paternal mitochondrial factor that is critical for PME. The CPS-6 endonuclease relocates from the intermembrane space of paternal mitochondria to the matrix following fertilization to degrade mitochondrial DNA. It acts with maternal autophagy and proteasome machineries to promote PME. Loss of cps-6 delays breakdown of mitochondrial inner membranes, autophagosome enclosure of paternal mitochondria, and PME. Delayed removal of paternal mitochondria causes increased embryonic lethality, demonstrating that PME is important for normal animal development. Thus, CPS-6 functions as a paternal mitochondrial degradation factor during animal development.

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Structural basis for RNA trimming by RNase T in stable RNA 3′-end maturation

Hsiao

Yang

Lin

et al. 2011

Nat Chem Biol

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RNA maturation relies on various exonucleases to remove nucleotides successively from the 5' or 3' end of nucleic acids. However, little is known regarding the molecular basis for substrate and cleavage preference of exonucleases. Our biochemical and structural analyses on RNase T-DNA complexes show that the RNase T dimer has an ideal architecture for binding a duplex with a short 3' overhang to produce a digestion product of a duplex with a 2-nucleotide (nt) or 1-nt 3' overhang, depending on the composition of the last base pair in the duplex. A 'C-filter' in RNase T screens out the nucleic acids with 3'-terminal cytosines for hydrolysis by inducing a disruptive conformational change at the active site. Our results reveal the general principles and the working mechanism for the final trimming step made by RNase T in the maturation of stable RNA and pave the way for the understanding of other DEDD family exonucleases.

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Characterization of the novel cardiolipin binding regions identified on the protease and lipid activated PKC‐related kinase 1

Lin

2019

Protein Science

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Protein kinase C-related kinase 1 (PRK1) or PKN is a protease and lipid activated protein kinase that acted downstream of the RhoA or Rac1 pathway. PRK1 comprises a unique regulatory domain and a PKC homologous kinase domain. The regulatory domain of PRK1 consists of homologous region −1 (HR1) and −2 (HR2). PRK1-(HR1) features a pseudosubstrate motif that overlapped with the putative cardiolipin and known RhoA binding sites. In fact, cardiolipin is the most potent lipid activator for PRK1 in respect of its either auto-or substrate phosphorylation activity. This study was thus aimed to characterize the binding region(s) of cardiolipin that was previously suggested for the regulatory domain of PRK1. The principal findings of this work established (i) PRK1-(HR1) folded into an active conformation where high affinity binding sites (mainly located in HR1a subdomain) were accessible for cardiolipin binding to protect against limited Lys-C digestion, (ii) the binding nature between acidic phospholipids and PRK1 (HR1) involved both polar and nonpolar components consistent with the amphipathic nature of the known cardiolipin-binding motifs, (iii) identification of the molecule masses of the Lys-C fragments of PRK1-(HR1) complexed with cardiolipin molecule, and (iv) appreciable reductions in the secondary structural contents at 222 nm measured by circular dichroism analyses demonstrated the binding of cardiolipin elicited the disruptive effect that was most evident among all phospholipids tested, suggestive of a functional correlation between the extents of helical disruption and PRK1 activation.

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Oxidative Stress Impairs Cell Death by Repressing the Nuclease Activity of Mitochondrial Endonuclease G

et al. 2016

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SUMMARY Endonuclease G (EndoG) is a mitochondrial protein that is released from mitochondria and relocated into the nucleus to promote chromosomal DNA fragmentation during apoptosis. Here, we show that oxidative stress causes cell death defects in C. elegans through an EndoG-mediated cell death pathway. In response to high ROS levels, homodimeric CPS-6—the C. elegans homolog of EndoG—is dissociated into monomers with diminished nuclease activity. Conversely, the nuclease activity of CPS-6 is enhanced and its dimeric structure is stabilized by its interaction with the worm AIF homolog, WAH-1, which shifts to disulfide cross-linked dimers under high ROS levels. CPS-6 thus plays an unexpected role in acting as a ROS sensor to regulate the life and death of cells. Modulation of the EndoG dimer conformation could present an avenue for prevention and treatment of diseases resulting from oxidative stress.

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Major immunoreactive domains of human ribosomal P proteins lie N-terminal to a homologous C-22 sequence: application to a novel ELISA for systemic lupus erythematosus

Lin

Dubljevic

Fritzler

et al. 2005

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SummaryThe aim of this study was to identify immunoreactive domains on human ribosomal P0, P1 and P2 proteins, other than the C-22 peptide, to develop a novel ELISA using a combination of these proteins and to compare this ELISA with one using the C-22 peptide. Human recombinant P0, P1, P2 and mutant P0 lacking the homologous C-22 peptide (N-P0) were produced in bacteria and tested by ELISA and immunoblotting using sera from 48 patients with systemic lupus erythematosus (SLE), 48 with an unrelated inflammatory disorder (Crohn's disease) and 47 healthy controls. ELISA with P0, P1 and P2, premixed at equimolar concentrations, gave higher OD readings than each protein tested individually. Eighteen SLE sera tested positive by ELISA with premixed P0, P1, P2 but only 3 tested positive with the C-22 peptide. Twentytwo SLE sera reacted positively, as determined by immunoblotting, with 5 different P protein combinations: P1P2, P0P1P2, P1, P0P1, P0 and P1. Only sera reactive with all three P proteins reacted with the C-22 peptide, with absent or minimal reactivity with N-P0. Native antigens yielded sensitivity (6/48, 13%) similar to the C-22 peptide assay. An ELISA with premixed P1 and P2 gave higher OD values than the arithmetic means with P1 or P2. Fifteen SLE patients had antibodies to double stranded (ds)-DNA, of which 6 also had antibodies to P0P1P2 by ELISA but 12 reactive with P0P1P2 did not have discernable ds-DNA antibodies. Ribosomal P autoantibodies react mainly with epitopes N-terminal to a homologous C-22 peptide. An ELISA with premixed P0, P1 and P2 has 5-fold greater sensitivity (38%) for SLE than an assay with the conventional C-22 peptide (7%). The combined sensitivity for SLE for antibodies to P0P1P2 and ds-DNA is 56%, higher than C-22 and ds-DNA, 38%. Only one of the SLE patients had neuropsychiatric lupus.

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Jason L. J. Lin

Mitochondrial endonuclease G mediates breakdown of paternal mitochondria upon fertilization

Structural basis for RNA trimming by RNase T in stable RNA 3′-end maturation

Characterization of the novel cardiolipin binding regions identified on the protease and lipid activated PKC‐related kinase 1

Oxidative Stress Impairs Cell Death by Repressing the Nuclease Activity of Mitochondrial Endonuclease G

Major immunoreactive domains of human ribosomal P proteins lie N-terminal to a homologous C-22 sequence: application to a novel ELISA for systemic lupus erythematosus

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