Remaining Mysteries of Molecular Biology: The Role of Polyamines in the Cell

doi:https://doi.org/10.1016/j.jmb.2015.06.020

Open AccessReview10.1016/j.jmb.2015.06.020

Remaining Mysteries of Molecular Biology: The Role of Polyamines in the Cell

Leonor Miller‐Fleming,Viridiana Olín‐Sandoval,Kate Campbell,Markus Ralser-2015-07-05-Journal of Molecular Biology

655

TL;DRAbstract

The polyamines (PAs) spermidine, spermine, putrescine and cadaverine are an essential class of metabolites found throughout all kingdoms of life. In this comprehensive review, we discuss their metabolism, their various intracellular functions and their unusual and conserved regulatory features. These include the regulation of translation via upstream open reading frames, the over-reading of stop codons via ribosomal frameshifting, the existence of an antizyme and an antizyme inhibitor, ubiquitin-independent proteasomal degradation, a complex bi-directional membrane transport system and a unique posttranslational modification-hypusination-that is believed to occur on a single protein only (eIF-5A). Many of these features are broadly conserved indicating that PA metabolism is both concentration critical and evolutionary ancient. When PA metabolism is disrupted, a plethora of cellular processes are affected, including transcription, translation, gene expression regulation, autophagy and s

Chat with Paper

AI Agents for this Paper

The polyamines (PAs) spermidine, spermine, putrescine and cadaverine are an essential class of metabolites found throughout all kingdoms of life. In this comprehensive review, we discuss their metabolism, their various intracellular functions and their unusual and conserved regulatory features. These include the regulation of translation via upstream open reading frames, the over-reading of stop codons via ribosomal frameshifting, the existence of an antizyme and an antizyme inhibitor, ubiquitin-independent proteasomal degradation, a complex bi-directional membrane transport system and a unique posttranslational modification-hypusination-that is believed to occur on a single protein only (eIF-5A). Many of these features are broadly conserved indicating that PA metabolism is both concentration critical and evolutionary ancient. When PA metabolism is disrupted, a plethora of cellular processes are affected, including transcription, translation, gene expression regulation, autophagy and s

Keywords

Ornithine decarboxylase antizymeBiologyPutrescineSpermidineOpen reading frameCell biologyTranslation (biology)Intracellular

Chat

Click to start Chat