Kristine N. Lahners scite author profile

Complementary DNA has been isolated that codes for maize nitrite reductase (NiR) by using the corresponding spinach gene (E Back et al. 1988 Mol Gen Genet 212:20-26) as a heterologous probe. The sequences of the complementary DNAs from the two species are 66% homologous while the deduced amino acid sequences are 86% similar when analogous amino acids are included. A high percentage of the differences in the DNA sequences is due to the extremely strong bias in the corn gene to have a G/C base in the third codon position with 559/569 codons ending in a G or C. Using a hydroponic system, maize seedlings grown in the absence of an exogenous nitrogen source were induced with nitrate or

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Differential adrenergic regulation of beta 1- and beta 3-adrenoreceptor messenger ribonucleic acids in adipose tissues.

Granneman

Lahners

1992

Endocrinology

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The levels of beta 1- and beta 3-adrenoreceptor mRNAs in several rat tissues were determined simultaneously with a sensitive nuclease protection assay. The beta 1-receptor gene was expressed to varying degrees in most tissues examined. By contrast, high levels of beta 3-receptor mRNA were only found in brown and white adipose tissues, indicating that beta 3-receptor gene expression is essentially adipose tissue specific. Surgical sympathectomy of interscapular brown adipose tissue increased beta 3-receptor mRNA levels by 2.4-fold, but did not affect beta 1-receptor mRNA levels. Exposure of rats to 4 C, which increases sympathetic nerve stimulation of IBAT, reduced beta 3-receptor mRNA levels in intact tissue but did not affect the denervation-induced increase in beta 3-receptor mRNA. Acute treatment of rats with norepinephrine greatly reduced beta 3 mRNA levels in both white and brown adipose tissues, but did not alter beta 1-receptor mRNA levels. These results indicate that beta 1- and beta 3-receptor mRNAs are differentially regulated and that norepinephrine released from sympathetic nerves is an important inhibitory regulator of beta 3-receptor mRNA levels. Injections of the beta-receptor agonist isoproterenol and the beta 3-receptor agonist BRL 26830 each reduced beta 3-receptor mRNA in brown and white fat, whereas injections of glucagon reduced beta 3-receptor mRNA in brown fat only. These data indicate that while stimulation of beta 3-receptors is sufficient to down-regulate beta 3 mRNA, other receptors that stimulate adenylyl cyclase have the same effect. Finally, the agonist-induced down-regulation of beta 3-receptor mRNA was associated with a reduction in beta 3-receptor activation of adenylyl cyclase in white adipose tissue.

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Promoter cassettes, antibiotic-resistance genes, and vectors for plant transformation

Rothstein¹,

Lahners²,

Lotstein³

et al. 1987

Gene

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Selective Up-Regulation of α_1a-Adrenergic Receptor Protein and mRNA in Brown Adipose Tissue by Neural and β₃-Adrenergic Stimulation

1997

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Previous studies have shown that neural stimulation of brown adipose tissue (BAT) reorganizes the expression and activity of signaling proteins in the beta-adrenergic adenylyl cyclase pathway. Cold stress increases neural stimulation of BAT and increases alpha1-adrenergic receptor number; however, the alpha1 receptor subtype involved and the mechanism of up-regulation by cold stress have not been determined. Using reverse transcription/polymerase chain reaction analysis and nuclease protection assay, BAT was demonstrated to express mRNAs encoding alpha1a and alpha1d, but not alpha1b, receptors. Parallel pharmacologic studies of BAT membranes and recombinant alpha1a and alpha1d receptors expressed in COS-7 cells demonstrated that alpha1a receptors predominate in BAT. Exposure of rats to 4 degrees for 4 days increased alpha1a receptors and mRNA in BAT but did not alter expression of alpha1d receptors or mRNA. The induction of alpha1a receptor and mRNA level by cold stress was prevented by selective surgical denervation of BAT. Furthermore, alpha1a receptor and mRNA expression could be induced in warm-adapted rats by infusions of the selective beta3-adrenergic receptor agonist CL 316,243. These data indicate that neural activation of beta3-adrenergic receptors is an important determinant of alpha1a adrenergic receptor expression in BAT.

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Transient Accumulation of Nitrite Reductase mRNA in Maize following the Addition of Nitrate

Kramer¹,

Lahners²,

Back³

et al. 1989

Plant Physiol.

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