Fuentes Eduardo N, Zuloaga Rodrigo, Nardocci Gino, Fernandez de la Reguera Catalina, Simonet Nicolas, Fumeron Robinson, Valdes Juan Antonio, Molina Alfredo, Alvarez Marco
Laboratorio de Biotecnologia Molecular, Departamento de Ciencias Biologicas, Facultad de Ciencias Biologicas, Universidad Andres Bello, Av.Republica 217, Santiago, Chile; Interdisciplinary Center for Aquaculture Research (INCAR), Lamas 1290 Victor, PO Box 160-C, Concepción, Chile.
Laboratorio de Biotecnologia Molecular, Departamento de Ciencias Biologicas, Facultad de Ciencias Biologicas, Universidad Andres Bello, Av.Republica 217, Santiago, Chile.
Comp Biochem Physiol B Biochem Mol Biol. 2014 Jun-Jul;172-173:57-66. doi: 10.1016/j.cbpb.2014.04.005. Epub 2014 Apr 24.
Ribosomal biogenesis controls cellular growth in living organisms, with the rate-limiting step of this process being the transcription of ribosomal DNA (rDNA). Considering that epigenetic mechanisms allow an organism to respond to environmental changes, the expression in muscle of several molecules that regulate epigenetic rRNA synthesis, as well as rDNA transcription, were evaluated during the seasonal acclimatization of the carp. First, the nucleotide sequences encoding the components forming the NoRC (ttf-I, tip5) and eNoSC (sirt1, nml, suv39h1), two chromatin remodeling complexes that silence rRNA synthesis, as well as the sequence of ubf1, a key regulator of rDNA transcription, were obtained. Subsequently the transcriptional regulation of the aforementioned molecules, and other key molecules involved in rRNA synthesis (mh2a1, mh2a2, h2a.z, h2a.z.7, nuc, p80), was assessed. The carp sequences for TTF-I, TIP5, SIRT1, NML, SUV39H1, and UBF1 showed a high conservation of domains and key amino acids in comparison with other fish and higher vertebrates. The mRNA contents in muscle for ttf-I, tip5, sirt1, nml, suv39h1, mh2a1, mh2a.z, and nuc were up-regulated during winter in comparison with summer, whereas the mRNA levels of mh2a2, ubf1, and p80 were down-regulated. Also, the contents of molecules involved in processing the rRNA (snoRNAs) and pRNA, a stabilizer of NoRC complex, were analyzed, finding that these non-coding RNAs were not affected by seasonal acclimatization. These results suggest that variations in the expression of rRNA and the molecules that epigenetically regulate its synthesis are contributing to the muscle plasticity induced by seasonal acclimatization in carp.
核糖体生物合成控制着生物体中的细胞生长,这一过程的限速步骤是核糖体DNA(rDNA)的转录。鉴于表观遗传机制使生物体能够对环境变化做出反应,因此在鲤鱼的季节性驯化过程中,对几种调节表观遗传rRNA合成以及rDNA转录的分子在肌肉中的表达进行了评估。首先,获得了编码构成NoRC(ttf-I、tip5)和eNoSC(sirt1、nml、suv39h1)这两种使rRNA合成沉默的染色质重塑复合物的成分的核苷酸序列,以及rDNA转录的关键调节因子ubf1的序列。随后,评估了上述分子以及参与rRNA合成的其他关键分子(mh2a1、mh2a2、h2a.z、h2a.z.7、nuc、p80)的转录调控。与其他鱼类和高等脊椎动物相比,鲤鱼的TTF-I、TIP5、SIRT1、NML、SUV39H1和UBF1序列显示出结构域和关键氨基酸的高度保守性。与夏季相比,ttf-I、tip5、sirt1、nml、suv39h1、mh2a1、mh2a.z和nuc在肌肉中的mRNA含量在冬季上调,而mh2a2、ubf1和p80的mRNA水平则下调。此外,还分析了参与rRNA加工的分子(snoRNAs)和NoRC复合物稳定剂pRNA的含量,发现这些非编码RNA不受季节性驯化的影响。这些结果表明,rRNA及其表观遗传调控合成分子的表达变化有助于鲤鱼季节性驯化诱导的肌肉可塑性。
