S. Langè scite author profile

Intracellular mRNA localization is a common mechanism to achieve asymmetric distributions of proteins. Previous studies have revealed that in a number of cell types, different mRNA species are localized by the same transport machinery. However, it has been unclear if these individual mRNA species are specifically sorted into separate or common ribonucleoprotein (RNP) particles before or during transport. Using budding yeast as a model system, we analyzed the intracellular movement of individual pairs of localized mRNA in live cells. Yeast cells localize more than 20 different mRNAs to the bud with the help of the Myo4p/ She3p/She2p protein complex. For live cell imaging, mRNA pairs were tagged with tandem repeats of either bacteriophage MS2 or lambda boxB RNA sequences and fluorescently labeled by fusion protein constructs that bind to the RNA tag sequences. Using three-dimensional, single-particle tracking with dual-color detection, we have tracked the transport of two different localized mRNA species in real time. Our observations show that different localized mRNAs are coassembled into common RNP particles and cotransported in a directional manner to the target site. Nonlocalized mRNAs or mutant mRNAs that lack functional localization signals form separate particles that are not transported to the bud. This study reveals a high degree of co-ordination of mRNA trafficking in budding yeast.

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The Biologic Variability of B-Type Natriuretic Peptide and N-Terminal Pro-B-Type Natriuretic Peptide in Stable Heart Failure Patients

O’Hanlon

O’Shea

Ledwidge

et al. 2007

Journal of Cardiac Failure

119

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Lifelong Caloric Restriction Increases Working Memory in Mice

et al. 2013

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Caloric restriction (CR) is argued to positively affect general health, longevity and the normally occurring age-related reduction of cognition. This issue is well examined, but most studies investigated the effect of short-term periods of CR. Herein, 4 weeks old female mice were fed caloric restricted for 4, 20 and especially for 74 weeks. CR mice received 60% of food eaten by their ad libitum (AL) fed littermates, and all age-matched groups were behaviorally analyzed. The motor coordination, which was tested by rotarod/accelerod, decreased age-related, but was not influenced by the different periods of CR. In contrast, the age-related impairment of spontaneous locomotor activity and anxiety, both being evaluated by open field and by elevated plus maze test, was found aggravated by a lifelong CR. Measurement of cognitive performance with morris water maze showed that the working memory decreased age-related in AL mice, while a lifelong CR caused a better cognitive performance and resulted in a significantly better spatial memory upon 74 weeks CR feeding. However, a late-onset CR feeding in 66 weeks old mice did not ameliorate the working memory. Therefore, a lifelong CR seems to be necessary to improve working memory.

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Lifelong Caloric Restriction Reprograms Hepatic Fat Metabolism in Mice

Kuhla¹,

Hahn²,

Butschkau³

et al. 2013

The Journals of Gerontology Series A: Biological Sciences and M

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Calorie lowering slows the aging process and extends life span in diverse species by so far unknown mechanisms. The inverse linear relationship between calorie intake and life span suggests that regulators of energy metabolism are of importance in aging. The present study shows that lifelong caloric restriction in mice induces a metabolic adaptation with reduced lipogenesis and enhanced lipolysis and ketogenesis. This process, that is, the reprogramming of hepatic fat metabolism, is associated with a marked rise of fibroblastic growth factor 21 as a putative starvation master regulator. Due to the life span-extending properties of fibroblastic growth factor 21, the rise in fibroblastic growth factor 21 might contribute to the markedly better health status found in mice upon lifelong caloric restriction feeding. In addition, adropin, known as a peptide that controls lipid homeostasis, is significantly upregulated, underlining the diminution of lipogenesis that was further substantiated by decreased expression of liver-X-receptor α and its target genes sterol regulatory element-binding protein-1c, fatty acid synthase, and member 1 of human transporter subfamily ABCA upon lifelong caloric restriction feeding.

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Establishment and characterization of chicken embryo fibroblast clone LSCC-H32

1982

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Cell line CEC-32 and clone LSCC-H32 were established from primary chicken embryo cells spontaneously but not experimentally transformed at 32 degrees C. The lines consisted of fibroblastoid and polygonal cells and had a subtetraploid karyotype of 2N = 130 to 140. The cells showed increased plating efficiency and metabolic activities as demonstrated by hexose uptake and plasminogen activator assay. The established cells produced avian lymphoid leukosis viruses of subgroups A and B. The virus released from LSCC-H32 cells induced lymphoid leukosis in inoculated chickens 18 to 22 wk post infection (PI). The cells have been carried in continuous culture for 285 passages and they appeared to grow indefinitely. They were efficiently used to propagate several animal viruses and to titrate chicken interferon.

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S. Langè

Simultaneous Transport of Different Localized mRNA Species Revealed by Live‐Cell Imaging

The Biologic Variability of B-Type Natriuretic Peptide and N-Terminal Pro-B-Type Natriuretic Peptide in Stable Heart Failure Patients

Lifelong Caloric Restriction Increases Working Memory in Mice

Lifelong Caloric Restriction Reprograms Hepatic Fat Metabolism in Mice

Establishment and characterization of chicken embryo fibroblast clone LSCC-H32

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