Hyeung Jin Son scite author profile

Many protein-encoding genes of African trypanosomes are transcribed as large polycistronic pre-mRNAs that are processed into individual mRNAs containing a 5' spliced leader and 3' poly(A). The 45-to 60-kb pre-mRNAs encoding some variant surface glycoproteins (VSGs) contain as many as eight unrelated coding regions. Here we identify the promoter for a metacyclic VSG gene that is expressed without duplication in a bloodstream trypanosome clone. This 70-bp promoter is located 2 kb upstream of the telomere-linked VSG gene and directs the synthesis of a monocistronic VSG pre-mRNA lacking the 5' spliced leader. Its sequence only slightly resembles those of other known trypanosome promoters, but it does cross-hybridize with several related sequences elsewhere in the genome. These results suggest that a new class of trypanosome promoters has been found, whose function is to initiate monocistronic transcription of those VSG genes normally expressed during the metacyclic stage.

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Silent genes in the mouse major urinary protein gene family.

Shi¹,

Son²,

Shahan³

et al. 1989

Proc. Natl. Acad. Sci. U.S.A.

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To date, two classes of mouse major urinary protein (MUP)-encoding genes have been described, the expressed genes and the intervening-sequence-containing pseudogenes. The data presented in this paper define a third class, the silent Mup genes, which are potentially functional but appear not to be expressed under normal circumstances. We describe a MUP subfamily (Mup-1.5) containing two genes, Mup-i.Sa and Mup-1.5b, that are nearly identical, differing at only three positions (>99.9% identity) over the entire 4-

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Insertional Mutations in Transgenic Mice

Costantini¹,

Radice²,

Lee³

et al. 1989

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Microbial transformation of rifamycin B: A new synthetic approach to rifamycin derivatives.

et al. 1983

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Rifamycin B. oxidase from Monocillium spp., a new type of diphenol oxidase

et al. 1983

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It was found that enzyme from a microbial strain, Monocillium spp. ATCC 20621, catalyzed the oxidative reaction of rifamycin B to form rifamycin O. The identification of the reaction products suggested that the reaction proceeded by the oxidative cyclization of rifamycin B to give rifamycin O, which spontaneously hydrolyzed to rifamycin S in neutral aqueous milieu. The characteristic of the enzyme was different as compared with that of other polyphenol oxidases such as laccase. It is proposed that this new type of enzyme be classified into a subgroup EC 1.10.3.6 with a trival name rifamycin B oxidase.

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Hyeung Jin Son

A monocistronic transcript for a trypanosome variant surface glycoprotein.

Silent genes in the mouse major urinary protein gene family.

Insertional Mutations in Transgenic Mice

Microbial transformation of rifamycin B: A new synthetic approach to rifamycin derivatives.

Rifamycin B. oxidase from Monocillium spp., a new type of diphenol oxidase

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