Ana Lancha scite author profile

Ynt1 is the only high-affinity nitrate uptake system in Hansenula polymorpha. Nitrate uptake was directly correlated with the Ynt1 levels and shown to be independent of nitrate reductase (NR) activity levels. Ynt1 failed to transport chlorate and, as a result, strains lacking YNT1 were sensitive to chlorate, as is the wild-type. Nitrite uptake in a wild-type strain was partially inhibited by nitrate to levels shown by a YNT1-disrupted strain in which, in turn, nitrite transport was not inhibited by nitrate. It is concluded that nitrite uptake takes place by two different transport systems: Ynt1 and a nitrite-specific transporter(s). The nitrite-specific transport system was induced by nitrate; consistently, no induction was observed in strains lacking the transcription factor YNA1, which is involved in nitrate and nitrite induction of the nitrate assimilatory structural genes. Ynt1 presents its optimal rate for nitrite uptake at pH 6, while pH 4 was optimal for the specific nitrite uptake system(s). At pH 5.5, the contribution of Ynt1 to high-affinity nitrate and nitrite uptake was around 95% and 60%, respectively. The apparent K m of Ynt1 for nitrate and nitrite is in the µM range, as is the specific nitrite uptake system for nitrite. The analysis of the effect of the reduced nitrogen sources on nitrate assimilation revealed that glutamine inactivates nitrate and nitrite transport, dependent on Ynt1, but not the nitrite-specific system.

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The role of nitrate reductase in the regulation of the nitrate assimilation pathway in the yeast

Navarro

Perdomo

Tejera

et al. 2003

FEMS Yeast Research

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The role of nitrate reductase (NR) in the regulation of the nitrate assimilation pathway was evaluated in the yeast Hansenula polymorpha. Posttranscriptional regulation of NR in response to reduced nitrogen sources and the effect of a heterologous NR on the transcriptional regulation of nitrate-assimilatory gene expression was examined. The strain bearing YNR1 (nitrate reductase gene) under the control of the methanol-induced MOX (methanol oxidase) promoter showed that NR is active in the presence of reduced nitrogen sources. In cells incubated with glutamine plus nitrate, rapamycin abolished nitrogen catabolite repression, NR activity being very similar to that in cells induced by nitrate alone. This reveals the involvement of the Tor-signalling pathway in the transcriptional regulation of H. polymorpha nitrate assimilation genes. To assess the role of NR in nitrate-assimilatory gene expression, different strains lacking YNR1, or both YNR1 and YNT1 (high-affinity nitrate transporter) genes, or expressing the tobacco NR under the YNR1 promoter, were used. Tobacco NR abolished the constitutive nitrate-assimilatory gene induction shown by an NR gene disruptant strain. Moreover, in strains lacking the high-affinity nitrate transporter and NR this deregulation disappeared. These facts discard the role of NR protein in the transcriptional induction of the nitrate-assimilatory genes and point out the involvement of the high-affinity nitrate transporter as a part of the nitrate-signalling pathway.

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A Comparative Analysis of Somatolactin-Related Immunoreactivity in the Pituitaries of Four Neopterygian Fishes and One Chondrostean Fish: An Immunohistochemical Study

Dores

Hoffman

Chilcutt-Ruth

et al. 1996

General and Comparative Endocrinology

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Melanotropes of the Lizard, <i>Anolis carolinensis</i>, Lack N-Acetylating Mechanisms for Both Alpha-Melanocyte-Stimulating Hormone and Beta-Endorphin

Dores

Wasinger²,

Vaudry³

et al. 1994

Neuroendocrinology

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In order to determine whether A nolis carolinensis intermediate pituitary cells have the capacity to N-acetylate either ACTH(1-13)NH2 or β-endorphin during secretion, individual intermediate pituitary explants were incubated in DMEM/CO₂ for 24 h at 28°C. Although α-melanocyte-stimulating hormone (α-MSH)- and β-endorphin-related products were spontaneously released into the medium, none of these forms were N-acetylated. It appears that unlike most gnathostomes, A. carolinensis has secondarily lost the POMC-specific N-acetylation mechanisms. A ramification of this observation is that the α-MSH for A. carolinensis is ACTH (1-13)NH₂.

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Detection of a novel sequence change in the major form of α-MSH isolated from the intermediate pituitary of the reptile, Anolis carolinensis

et al. 1991

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Ana Lancha

The role of Ynt1 in nitrate and nitrite transport in the yeast Hansenula polymorpha

The role of nitrate reductase in the regulation of the nitrate assimilation pathway in the yeast

A Comparative Analysis of Somatolactin-Related Immunoreactivity in the Pituitaries of Four Neopterygian Fishes and One Chondrostean Fish: An Immunohistochemical Study

Melanotropes of the Lizard, <i>Anolis carolinensis</i>, Lack N-Acetylating Mechanisms for Both Alpha-Melanocyte-Stimulating Hormone and Beta-Endorphin

Detection of a novel sequence change in the major form of α-MSH isolated from the intermediate pituitary of the reptile, Anolis carolinensis

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