Chenggang Yu scite author profile

The RNA-binding proteins LIN28A and LIN28B play critical roles in embryonic development, tumorigenesis, and pluripotency, but their exact functions are poorly understood. Here, we show that, like LIN28A, LIN28B can function effectively with NANOG, OCT4, and SOX2 in reprogramming to pluripotency and that reactivation of both endogenous LIN28A and LIN28B loci are required for maximal reprogramming efficiency. In human fibroblasts, LIN28B is activated early during reprogramming, while LIN28A is activated later during the transition to bona fide induced pluripotent stem cells (iPSCs). In murine cells, LIN28A and LIN28B facilitate conversion from naive to primed pluripotency. Proteomic and metabolomic analysis highlighted roles for LIN28 in maintaining the low mitochondrial function associated with primed pluripotency and in regulating one-carbon metabolism, nucleotide metabolism, and histone methylation. LIN28 binds to mRNAs of proteins important for oxidative phosphorylation and modulates protein abundance. Thus, LIN28A and LIN28B play cooperative roles in regulating reprogramming, naive/primed pluripotency, and stem cell metabolism.

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LIN28 Zinc Knuckle Domain Is Required and Sufficient to Induce let-7 Oligouridylation

Wang

et al. 2017

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LIN28 is an RNA binding protein that plays crucial roles in pluripotency, glucose metabolism, tissue regeneration, and tumorigenesis. LIN28 binds to the let-7 primary and precursor microRNAs through bipartite recognition and induces degradation of let-7 precursors (pre-let-7) by promoting oligouridylation by terminal uridylyltransferases (TUTases). Here, we report that the zinc knuckle domain (ZKD) of mouse LIN28 recruits TUT4 to initiate the oligouridylation of let-7 precursors. Our crystal structure of human LIN28 in complex with a fragment of pre-let-7f-1 determined to 2.0 Å resolution shows that the interaction between ZKD and RNA is constrained to a small cavity with a high druggability score. We demonstrate that the specific interaction between ZKD and pre-let-7 is necessary and sufficient to induce oligouridylation by recruiting the N-terminal fragment of TUT4 (NTUT4) and the formation of a stable ZKD:NTUT4:pre-let-7 ternary complex is crucial for the acquired processivity of TUT4.

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Free-electron lasing at 27 nanometres based on a laser wakefield accelerator

Wang

Feng

et al. 2021

Nature

218

109

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Functional Mapping of an Oligomeric Autotransporter Adhesin of Aggregatibacter actinomycetemcomitans

Yu¹,

Ruíz

Lenox³

et al. 2008

J Bacteriol

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Extracellular matrix protein adhesin A (EmaA) is a 202-kDa nonfimbrial adhesin, which mediates the adhesion of the oral pathogen Aggregatibacter actinomycetemcomitans to collagen. EmaA oligomers form surface antenna-like protrusions consisting of a long helical rod with an ellipsoidal ending. The functional analysis of in-frame emaA deletion mutants has located the collagen binding activity to the amino terminus of the protein corresponding to amino acids 70 to 386. The level of collagen binding of this deletion mutant was comparable to the emaA mutant strain. Transmission electron microscopy studies indicate that the first 330 amino acids of the mature protein form the ellipsoidal ending of the EmaA protrusions, where the activity resides. Amino acid substitution analysis within this sequence has identified a critical amino acid, which is essential for the formation of the ellipsoidal ending and for collagen binding activity.The interaction with extracellular matrix (ECM) proteins of the host is an established virulence determinant in many bacterial pathogens (13). Bacteria express several surface proteinaceous structures for adhesion to ECM proteins. These structures are categorized as fimbrial and nonfimbrial adhesins and can be visualized in negatively stained images of bacteria by transmission electron microscopy (TEM) (12,32,40). Fimbrial adhesins are typically long structures with lengths of 0.3 to 1 m (5) composed of multiple copies of homo-or heteropolymeric subunits (14). Nonfimbrial adhesins form smaller structures, up to 0.3 m in length, which consist of a single protein monomer, or small homo-oligomers anchored to the surface of the bacteria (12,13,29).Homo-oligomeric adhesins compose a subclass of the type V autotransporter secretion system, which include types V a , V b ,

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Chenggang Yu

LIN28 Regulates Stem Cell Metabolism and Conversion to Primed Pluripotency

LIN28 Zinc Knuckle Domain Is Required and Sufficient to Induce let-7 Oligouridylation

Free-electron lasing at 27 nanometres based on a laser wakefield accelerator

Functional Mapping of an Oligomeric Autotransporter Adhesin of Aggregatibacter actinomycetemcomitans

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