Structure and function of eukaryotic fatty acid synthases

Maier, Timm; Leibundgut, Marc; Boehringer, Daniel; Ban, Nenad

doi:10.1017/s0033583510000156

Cited by 123 publications

(139 citation statements)

References 159 publications

(354 reference statements)

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“…Homozygous Acaca À/ À knockout (KO) mouse embryos were undeveloped and died, while heterozygotes were fertile with normal life spans and normal body weight. 24 Considering the function and housekeeping role of FAS and the KO mouse phenotypes, the ACACA mutation is unlikely to be the genetic cause of the CC phenotype in family CC00116. The report of the p.Arg1133His mutation as a somatic mutation in large intestine carcinoma must be considered as a passenger mutation in cancer progression.…”

Section: Discussionmentioning

confidence: 99%

The myosin chaperone UNC45B is involved in lens development and autosomal dominant juvenile cataract

et al. 2014

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Genome-wide linkage analysis, followed by targeted deep sequencing, in a Danish multigeneration family with juvenile cataract revealed a region of chromosome 17 co-segregating with the disease trait. Affected individuals were heterozygous for two potentially protein-disrupting alleles in this region, in ACACA and UNC45B. As alterations of the UNC45B protein have been shown to affect eye development in model organisms, effort was focused on the heterozygous UNC45B missense mutation. UNC45B encodes a myosin-specific chaperone that, together with the general heat shock protein HSP90, is involved in myosin assembly. The mutation changes p.Arg805 to Trp in the UCS domain, an amino acid that is highly conserved from yeast to human. UNC45B is strongly expressed in the heart and skeletal muscle tissue, but here we show expression in human embryo eye and zebrafish lens. The zebrafish mutant steif, carrying an unc45b nonsense mutation, has smaller eyes than wild-type embryos and shows accumulation of nuclei in the lens. Injection of RNA encoding the human wild-type UNC45B protein into the steif homozygous embryo reduced the nuclei accumulation and injection of human mutant UNC45B cDNA in wild-type embryos resulted in development of a phenotype similar to the steif mutant. The p.Arg805Trp alteration in the mammalian UNC45B gene suggests that developmental cataract may be caused by a defect in non-muscle myosin assembly during maturation of the lens fiber cells. Keywords: congenital cataract; UNC45B; non-muscle myosin; epithelial lens cell; zebrafish steif mutant INTRODUCTION Congenital/infantile cataract (CC) is a developmental anomaly characterized by opacities in the crystal lens of the eye and is a common cause of restricted vision and blindness in children. Environmental and intrinsic factors are involved, including metabolic and genetic causes for CC. Mendelian forms of CC comprise a broad spectrum of syndromic and nonsyndromic phenotypes characterized by a set of associated ocular and/or systemic abnormalities. More than 35 loci, including at least 25 known genes, have been associated with nonsyndromic cataract, the majority showing autosomal dominant inheritance with high penetrance (ADCC). 1,2 Mutations in crystallins, particularly CRYAA, CRYBB2, and CRYGD and the connexin genes GJA3 and GJA8 comprise the largest group of loci causing ADCC, but mutations are also found in the membrane proteins MIP, LIM2, TMEM114 and CHMP4B, in cytoskeleton proteins (BSFP1 and BSFP2) and in transcription factors (HSF4 and MAF). 1,2 In a recent study, 3 we reported that these loci represented most of the causative mutations in 19 out of 28 unrelated Danish CC families. Among the unsolved families was one in which genome-wide linkage analysis revealed two candidate loci at 2q32.3-q33.3 and 17q11.2-q21.2, respectively. 3 The family comprised three generations with nine

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Section: Discussionmentioning

confidence: 99%

The myosin chaperone UNC45B is involved in lens development and autosomal dominant juvenile cataract

et al. 2014

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“…It remains to be determined whether these starter units are derived from endogenous acyl-CoA molecules or are diverted from the acyl-ACP thioester intermediates on the fungal type I fatty acid synthase (FAS) of the host. It has to be noted, however, that the sequestered conformation of the ACP domains inside the two reaction chambers of the heterododecameric yeast FAS is expected to prevent direct interaction with the SAT domain of the nrPKS (43,44). In any case, the ability of fungal collaborating nrPKSs to engage in productive cross talk with the primary metabolism of the host is not the exclusive property of PKS13, nor is it limited to bacterial type II FASs as partners.…”

Section: Isolation Of the Dehydrocurvularin Biosynthetic Locusmentioning

confidence: 99%

Characterization of the Biosynthetic Genes for 10,11-Dehydrocurvularin, a Heat Shock Response-Modulating Anticancer Fungal Polyketide from Aspergillus terreus

Espinosa-Artiles

Schubert

et al. 2013

Appl Environ Microbiol

114

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d 10,11-Dehydrocurvularin is a prevalent fungal phytotoxin with heat shock response and immune-modulatory activities. It features a dihydroxyphenylacetic acid lactone polyketide framework with structural similarities to resorcylic acid lactones like radicicol or zearalenone. A genomic locus was identified from the dehydrocurvularin producer strain Aspergillus terreus AH-02-30-F7 to reveal genes encoding a pair of iterative polyketide synthases (A. terreus CURS1 [AtCURS1] and AtCURS2) that are predicted to collaborate in the biosynthesis of 10,11-dehydrocurvularin. Additional genes in this locus encode putative proteins that may be involved in the export of the compound from the cell and in the transcriptional regulation of the cluster. 10,11-Dehydrocurvularin biosynthesis was reconstituted in Saccharomyces cerevisiae by heterologous expression of the polyketide synthases. Bioinformatic analysis of the highly reducing polyketide synthase AtCURS1 and the nonreducing polyketide synthase AtCURS2 highlights crucial biosynthetic programming differences compared to similar synthases involved in resorcylic acid lactone biosynthesis. These differences lead to the synthesis of a predicted tetraketide starter unit that forms part of the 12-membered lactone ring of dehydrocurvularin, as opposed to the penta-or hexaketide starters in the 14-membered rings of resorcylic acid lactones. Tetraketide N-acetylcysteamine thioester analogues of the starter unit were shown to support the biosynthesis of dehydrocurvularin and its analogues, with yeast expressing AtCURS2 alone. Differential programming of the product template domain of the nonreducing polyketide synthase AtCURS2 results in an aldol condensation with a different regiospecificity than that of resorcylic acid lactones, yielding the dihydroxyphenylacetic acid scaffold characterized by an S-type cyclization pattern atypical for fungal polyketides.

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“…These organizations could provide several advantages with regard to function and also to stability of single components, as reported for the fatty acid synthase (FAS) I system, a large coordinated multifunctional enzyme which carries out fatty acids biosynthesis [2]. This complex is specifically required during the transition from the respiratory to the fermentative growth constituting an evolutionary-conserved membrane-phospholipids adaptive system able to contrast the potential denaturing conditions determined by the accumulation of ethanol.…”

Section: Discussionmentioning

confidence: 99%

“…Many complexes have been characterized and the 3D structure determined for a few of them: the fatty acid synthase complex is just an example [2]. Many, if not all, complexes in turn can assemble in dynamic multi-component macromolecular networks, called "depots" [3,4].…”

Section: Introductionmentioning

confidence: 99%

Glucose 6-phosphate and alcohol dehydrogenase activities are components of dynamic macromolecular depots structures

Tramonti

Saliola

2015

Biochimica et Biophysica Acta (BBA) - General Subjects

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Structure and function of eukaryotic fatty acid synthases

Cited by 123 publications

References 159 publications

The myosin chaperone UNC45B is involved in lens development and autosomal dominant juvenile cataract

The myosin chaperone UNC45B is involved in lens development and autosomal dominant juvenile cataract

Characterization of the Biosynthetic Genes for 10,11-Dehydrocurvularin, a Heat Shock Response-Modulating Anticancer Fungal Polyketide from Aspergillus terreus

Glucose 6-phosphate and alcohol dehydrogenase activities are components of dynamic macromolecular depots structures

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