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• Book

  Recombinant and in vitro RNA synthesis : methods and protocols

  edited by Graeme L. Conn.

  Contents:
  Purification of RNA expressed in vivo inserted in a tRNA scaffold / Luc Ponchon and Frederic Dardel
  Selective RNase H cleavage of target RNAs from a tRNA scaffold / Luc Ponchon [and others]
  Preparation of long templates for RNA in vitro transcription by recursive PCR / Jessica C. Bowman [and others]
  General protocols for preparation of plasmid DNA template, RNA in vitro transcription, and RNA purification by denaturing PAGE / Jo L. Linpinsel and Graeme L. Conn
  Preparation of short RNA by in vitro transcription / Cheng Lu and Pingwei Li
  Native RNA purification by gel filtration chromatography / Evan P. Booy, Hui Meng, and Sean A. McKenna
  Cis-acting ribozymes for the production of RNA in vitro transcripts with defined 5ʹ and 3ʹ ends / Johanna M. Avis, Graeme L. Conn, and Scott C. Walker
  Trans-acting antigenomic HDV ribozyme for production of in vitro transcripts with homogenous 3ʹ ends / Milena Szafraniec [and others]
  Rapid preparation of RNA samples using DNA-affinity chromatography and DNAzyme methods / Hae-Kap Cheong, Eunha Hwang, and Chaejoon Cheong
  Preparation of lN-GST fusion protein for affinity immobilization of RNA / Genevieve Di Tomasso [and others]
  Affinity purification of RNA using an ARiBo tag / Genevieve Di Tomasso [and others]
  Plasmid template design and in vitro transcription of short RNAs within a "structure cassette" for structure probing experiments / Virginia K. Vachon and Graeme L. Conn
  In vitro transcription of modified RNAs / Stephanie L. Moon and Jeffrey Wilusz
  End-labeling oligonucleotides with chemical tags after synthesis / N. Ruth Zearfoss and Sean P. Ryder
  High-purity enzymatic synthesis of site-specifically modified tRNA / Ya-Ming Hou
  Se-derivatized RNAs for x-ray crystallography / Lina Lin and Zhen Huang
  Biosynthetic preparation of 13C/15N-labeled rNTPs for high-resolution NMR studies of RNAs / Luigi Martino and Maria R. Conte
  Preparative separation of ribonucleoside monophosphates by ion-pair reverse-phase HPLC / Pierre Dagenais and Pascale Legault
  Splint ligation of RNA with T4 DNA ligase / Christopher J. Kershaw and Raymond T. O'Keefe.

  Digital Access Springer 2012
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• Article

  The topographic organization of hypothalamic and brain stem projections to the hippocampus.

  Pasquier DA, Reinoso-Suarez F.

  Brain Res Bull. 1978 Jul-Aug;3(4):373-89.

  Direct projections primarily ipsilateral to hippocampus from medial septal, diagonal band, supramammillary, submammillothalamic, locus coeruleus, and dorsal and medianus raphe nuclei were demonstrated. The locus coeruleus projects primarily through the cingulum and fornix superior to the dorsal posterior hippocampus, with its terminal fields in the stratum lacunosum moleculare of the subiculum and areas CA 1-CA 2 of the dorsal posterior hippocampus. LC projections to the granular layer of the dentate hilus were not found. Raphe nuclei project through the cingulum, fornix superior, and primarily the fimbria, to the dorsal and ventral posterior hippocampus, with their terminal fields in the stratum lacunosum moleculare of the dorsal posterior subicular region, stratum radiatum of CA 1-CA 3 in the dorsal hippocampus, and the stratum polymorph of the dentate gyrus, primarily in its superficial part. Raphe projections to the anterior hippocampal rudiment were found. However, no projection was found to the subiculum of the ventral posterior hippocampus, nor to stratum oriens. Hypothalamic nuclei project through the fornix superior and the fimbria, mainly to the dorsal posterior hippocampus with abundant terminal fibers in the depth of the dentate hilus. Smaller cells in these hypothalamic nuclei appear projecting to the ventral hippocampus. The number of neurons in the entorhinal area, the diagonal band, and the hypothalamic nuclei projecting to the hippocampus suggests these groups as the main sources of the extrinsic hippocampal afferents. In addition, they may also serve as relay stations for inputs from more caudal nuclei, and the topographic organization of their terminal fields as described herein may have important functional implications.

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  PubMed