Christine Fuchs scite author profile

Four (R)-w-transaminases originating from Hyphomonas neptunium (HN-wTA), Aspergillus terreus (AT-wTA) and Arthrobacter sp. (ArRwTA), as well as an evolved transaminase (ArRmut11-wTA) were successfully employed for the amination of prochiral ketones leading to optically pure (R)-amines. The first three transaminases displayed perfect stereoselectivity for the amination of all substrates tested (ee > 99%). Furthermore, the transaminase AT-wTA led in most cases to better conversion than ArR-wTA and HN-wTA using d-alanine as amine donor. a-Tetralone, which was the only substrate not accepted by HN-wTA, ArR-wTA, and AT-wTA, was successfully transformed with perfect enantioselectivity (ee > 99%) into the corresponding optically pure amine employing the variant ArRmut11-wTA.

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A Globin Gene of Ancient Evolutionary Origin in Lower Vertebrates: Evidence for Two Distinct Globin Families in Animals

Roesner¹,

Fuchs²,

Hankeln³

et al. 2004

129

150

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Hemoglobin, myoglobin, neuroglobin, and cytoglobin are four types of vertebrate globins with distinct tissue distributions and functions. Here, we report the identification of a fifth and novel globin gene from fish and amphibians, which has apparently been lost in the evolution of higher vertebrates (Amniota). Because its function is presently unknown, we tentatively call it globin X (GbX). Globin X sequences were obtained from three fish species, the zebrafish Danio rerio, the goldfish Carassius auratus, and the pufferfish Tetraodon nigroviridis, and the clawed frog Silurana tropicalis. Globin X sequences are distinct from vertebrate hemoglobins, myoglobins, neuroglobins, and cytoglobins. Globin X displays the highest identity scores with neuroglobin (approximately 26% to 35%), although it is not a neuronal protein, as revealed by RT-PCR experiments on goldfish RNA from various tissues. The distal ligand-binding and the proximal heme-binding histidines (E7 and F8), as well as the conserved phenylalanine CD1 are present in the globin X sequences, but because of extensions at the N-terminal and C-terminal, the globin X proteins are longer than the typical eight alpha-helical globins and comprise about 200 amino acids. In addition to the conserved globin introns at helix positions B12.2 and G7.0, the globin X genes contain two introns in E10.2 and H10.0. The intron in E10.2 is shifted by 1 bp in respect to the vertebrate neuroglobin gene (E11.0), providing possible evidence for an intron sliding event. Phylogenetic analyses confirm an ancient evolutionary relationship of globin X with neuroglobin and suggest the existence of two distinct globin types in the last common ancestor of Protostomia and Deuterostomia.

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The amphibian globin gene repertoire as revealed by the <i>Xenopus </i>genome

Fuchs

Burmester

Hankeln

2006

Cytogenet Genome Res

145

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The draft genome sequence of the Western clawed frog Xenopus (Silurana) tropicalis facilitates the identification, expression analysis and phylogenetic classification of the amphibian globin gene repertoire. Frog and mammalian neuroglobin display about 67% protein sequence identity, with the expected predominant expression in frog brain and eye. Frog and mammalian cytoglobins share about 69% of their amino acids, but the frog protein lacks the mammalian-type extension at the C-terminus. Like in mammals, X. tropicalis cytoglobin is expressed in many organs including neural tissue. Neuroglobin and cytoglobin genomic regions are syntenically conserved in all vertebrate classes. Frog and fish globin X show only 57% amino acid identity, but gene synteny analysis confirms orthology. The expression pattern of X. laevis globin X differs from that in fish, with a prominent expression in the eye and weak expression in most other examined tissues. Globin X is possibly present as two paralogous copies in X. tropicalis, with one copy showing transition stages of non-functionalization. The amphibian genome contains a previously unknown globin type (tentatively named ‘globin Y’) which is expressed in a broad range of tissues and is distantly related to the cytoglobin lineage. The globin Y gene is linked to a cluster of larval and adult hemoglobin α and β genes which contains substantially more paralogous hemoglobin gene copies than previously published. Database and gene synteny analyses confirm the absence of a myoglobin gene in X. tropicalis.

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Contribution of Coalescence to Microfibril Formation in Polymer Blends during Cold Drawing

Fakirov

Bhattacharyya

Lin

et al. 2007

Journal of Macromolecular Science, Part B

121

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Christine Fuchs

Neuroglobin and cytoglobin in search of their role in the vertebrate globin family

Stereoselectivity of Four (R)‐Selective Transaminases for the Asymmetric Amination of Ketones

A Globin Gene of Ancient Evolutionary Origin in Lower Vertebrates: Evidence for Two Distinct Globin Families in Animals

The amphibian globin gene repertoire as revealed by the <i>Xenopus </i>genome

Contribution of Coalescence to Microfibril Formation in Polymer Blends during Cold Drawing

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