Biologically and chemically pure mRNA coding for a mouse immunoglobulin L-chain prepared with the aid of antibodies and immobilized oligothymidine.
about
In vitro selection and evolution of functional proteins by using ribosome displayTransfer of proteins across membranes. I. Presence of proteolytically processed and unprocessed nascent immunoglobulin light chains on membrane-bound ribosomes of murine myelomaNascent peptide as sole attachment of polysomes to membranes in bacteria.Messenger RNA metabolism of animal cells. Possible involvement of untranslated sequences and mRNA-associated proteins.Cholera toxin is synthesized in precursor form on free polysomes in Vibrio cholerae 569B.Pre - proparathyroid hormone identified by cell - free translation of messenger RNA from hyperplastic human parathyroid tissue.In vivo splicing of protein: one continuous polypeptide from two independently functioning operonsmRNA-dependent synthesis of authentic precursor to human placental lactogen: conversion to its mature hormone form in ascites cell-free extracts.Translation of melittin messenger RNA in vitro yields a product terminating with glutaminylglycine rather than with glutaminamidePartial amino-acid sequence of the precursor of an immunoglobulin light chain containing NH2-terminal pyroglutamic acid.Synthesis and processing of an Escherichia coli alkaline phosphatase precursor in vitro.A fetal protein in chromatin of Novikoff hepatoma and Walker 256 carcinosarcoma tumors that is absent from normal and regenerating rat liver.Marked hydrophobicity of the NH2-terminal extra piece of immunoglobulin light-chain precursors: possible physiological functions of the extra pieceIndependent expression of the gene coding for the constant domain of immunoglobulin light chain: evidence from sequence analyses of the precursor of the constant region polypeptide.Region of immunoglobulin light-chain mRNA transcribed into complementary DNA by RNA-dependent DNA polymerase of avian myeloblastosis virusOrganization of immunoglobulin genes: reiteration frequency of the mouse kappa chain constant region geneEvidence for somatic generation of antibody diversity.Structure and evolution of transplantation antigens: partial amino-acid sequences of H-2K and H-2D alloantigens.Transcription in vitro of immunoglobulin kappa light chain genes in isolated mouse myeloma nuclei and chromatin.Isolation of specific messenger RNA by adsorption of polysomes to matrix-bound antibody.Mechanisms for the incorporation of proteins in membranes and organelles.cDNA clones for the heavy chain of HLA-DR antigens obtained after immunopurification of polysomes by monoclonal antibody.Analysis of parvovirus mRNA by sedimentation and electrophoresis in aqueous and nonaqueous solution.In vitro synthesis of the Ca2+ transport ATPase by ribosomes bound to sarcoplasmic reticulum membranes.Homology in amino-terminal sequence of precursors to pancreatic secretory proteins.Amino acid sequence of the NH2-terminal extra piece segments of the precursors of mouse immunoglobulin lambda1-type and kappa-type light chains.Interaction of secreted nascent chains with surrounding membrane in Bacillus subtilisSynthesis, intracellular transport and discharge of exportable proteins in the pancreatic acinar cell and other cells.Localization of mRNAs to the endoplasmic reticulum.Blobel and Sabatini's "Beautiful Idea": Visual Representations of the Conception and Refinement of the Signal Hypothesis.Preparation of pancreatic mRNA: cell-free translation of an insulin-immunoreactive polypeptide.Glutamine as a precursor to N-terminal pyrrolid-2-one-5-carboxylic acid in mouse immunoglobulin lambda-type light chains. Amino acid-sequence variability at the N-terminal extra piece of lambda-type light-chain precursorsLost in translation: the signal hypothesis.Identification of N-terminal methionine in the precursor of immunoglobulin light chain. Initiation of translation of messenger ribonucleic acid in plants and animals.Amino acid-sequence variability at the N-terminal extra piece of mouse immunoglobulin light-chain precursors of the same and different subgroups.A simple procedure for the isolation and purification of protamine messenger ribonucleic acid from trout testis.The synthesis of light chain immunoglobulin in MPC-11 cells on only one of two fractions of membrane-bound polysomes prepared by a combination of nitrogen cavitation/detergent treatment.Acute effects of ethanol on biosynthesis and glycosylation of IgGl(kappa) antibody molecules in cultured P3/X63-Ag8 myeloma cells.Comparative hybridization studies iwth an immunoglobulin light chain mRNA fraction and non-immunoglobulin mRNA of mouse.Immunoglobulin precursors: structure, function, gene-protein correlation and evolution.
P2860
Q24643887-C0646B71-67B7-462C-B359-366F99AD248FQ24681545-B4CC92A4-5DA5-4D51-9B6B-226ACB057E58Q33961823-81A6B198-07CE-444E-8736-E6E05EA23359Q33975589-9898301D-5638-4C20-AFE9-E331AD8C711BQ34161040-D0B2782B-CB9C-4544-9C94-1BCB96C79976Q34485030-2485A6B9-B973-4D5A-BF12-4018A2616AA5Q34740355-E5C1676D-1691-433B-8F65-3F28AAC286C2Q34996760-911580B5-B2C2-4C62-B6EA-010A8DB5A92AQ35009812-2D35D5BA-0D93-431C-80FD-5C308BD7F8F5Q35015419-6697A208-AB29-4C23-94E4-ED9586E5C32FQ35018606-FC61BFC6-02C5-4DCF-8E3A-AEABF0569FD7Q35024898-58674B1A-A779-451A-BAB3-7E811BA2B217Q35025155-DF2794D5-B84C-4EE0-858F-C9C0AC3677C3Q35041277-391A0138-B1C2-4536-B535-FA9122EFE024Q35083165-74F41352-DA59-4E15-A4CC-7FD40E2AFE46Q35113620-3A6E561F-309D-40AC-A058-747C915FC2C8Q35129263-942548FC-3187-44C4-B8EC-5103F742C196Q35985958-9FD7E9D3-976D-4419-B9A9-F07F061DCB58Q35987472-EA088736-6048-4B3C-821D-3CFF6E57276DQ36178910-9B1AFDDA-83D9-4ACB-8FDE-7B774220830FQ36205692-C3894983-E233-4731-AED9-6734A72BA956Q36287090-4708C506-2655-4D98-B992-4D653FC33553Q36564698-C032EE21-C11B-4051-8F2A-5E23AB03476BQ37320531-D6968277-5F01-4D44-9553-5CC85A4AB1D2Q37465709-7A499037-C665-46A4-BCA5-089EC99BE3AEQ37582536-19E7D65E-6D4E-4E8F-BC8D-183ACA9507C3Q37595984-97BC4CAC-2C96-4B09-871D-797A49CBF9B1Q37792053-5272A4B8-41F3-432B-9646-B835E93BE346Q38197141-8EB6FFA4-3CCC-476E-9654-0AE45DA4C3FFQ38994331-47654E38-C33E-47F5-8865-9EAAC04EECC7Q40577434-74ECFF1B-F3B7-4CF8-9966-B90E5C68A574Q41336731-4AEE7A11-F487-4116-90EF-B316C958FB73Q41867289-AD6DE8A9-126C-40D7-BACB-6895CB68A9AAQ41965427-8B3AA4DF-3B95-453F-88C9-12274B0C67F8Q42535234-0FE2A79E-6196-498B-904D-E8704E28B757Q42933049-5EF2156A-E7D5-4840-BB11-DEB83A554BADQ44193010-2C97A020-356D-4E45-B383-5A52967657DEQ44304109-3B23D83D-E3A5-45F8-B124-F17A2136C6DBQ44896836-C7AD16E1-9999-4B99-9C42-1A1B8F580D90Q44941651-E42598D1-4CC8-47B8-8C66-EFE73535ACB2
P2860
Biologically and chemically pure mRNA coding for a mouse immunoglobulin L-chain prepared with the aid of antibodies and immobilized oligothymidine.
description
1973 nî lūn-bûn
@nan
1973 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1973 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1973年の論文
@ja
1973年論文
@yue
1973年論文
@zh-hant
1973年論文
@zh-hk
1973年論文
@zh-mo
1973年論文
@zh-tw
1973年论文
@wuu
name
Biologically and chemically pu ...... nd immobilized oligothymidine.
@ast
Biologically and chemically pu ...... nd immobilized oligothymidine.
@en
type
label
Biologically and chemically pu ...... nd immobilized oligothymidine.
@ast
Biologically and chemically pu ...... nd immobilized oligothymidine.
@en
prefLabel
Biologically and chemically pu ...... nd immobilized oligothymidine.
@ast
Biologically and chemically pu ...... nd immobilized oligothymidine.
@en
P2860
P356
P1476
Biologically and chemically pu ...... nd immobilized oligothymidine.
@en
P2093
Schechter I
P2860
P304
P356
10.1073/PNAS.70.8.2256
P407
P577
1973-08-01T00:00:00Z