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- Bookguest editors, Ziya Gokaslan, Charles Fisher, Stefano Boriani.Contents:
Evaluation and decision making for metastatic spine tumors / Yan Michael Li, Michael S. Dirks, Claudio E. Tatsui, and Laurence D. Rhines
Neoplastic spinal instability / Daryl R. Fourney and Charles G. Fisher
Major complications associated with stereotactic ablative radiotherapy (SABR) for spinal metastasis / Simon S. Lo, Arjun Sahgal, and Eric L. Chang
En bloc resection in the treatment of spinal metastases : technique and indications / Ilya Laufer, Jean-Paul Wolinksy, and Mark H. Bilsky
Region specific approaches / Daniel Sciubba
Spinal reconstruction and fixation/fusion / Rajiv Saigal and Dean Chou
Minimally invasive surgery for metastatic spine disease / Meic H. Schmidt
Vertebral augmentation for metastatic disease / Ehud Mendel, Eric Bourekas, and Paul Porensky
Surgical complications and avoidance / Michelle J. Clarke.Digital Access Thieme MedOne Neurosurgery 2014 - ArticleSieliwanowicz B.Acta Biochim Pol. 1978;25(3):239-45.1. The RNA polyadenylating activity was found in embryo axes of dry, as well as imbibed and germinated pea seeds, both in nucleus and cytoplasm. 2. The total enzymatic activity remains unchanged during germination, but the intracellular distribution is altered; the activity in nuclei is increased about four-fold at the expense of the postmitochondrial fraction. 3. Specificity towards RNA primers of the polyadenylating system from pea embryo axes is low. 4. Cordycepin inhibits RNA polyadenylation only when [14C]ATP is used as a nucleotide donor, and has no visible influence on the activity of the system utilizing [14C]oligo(A)-nucleotides. 5. It seems that RNA in the pea embryo axes is polyadenylated by a two-step mechanism: synthesis of oligo(A)-nucleotides, and their addition to RNA.