THE TERMINAL BALLS CHARACTERISTIC OF EUKARYOTIC RIBOSOMAL-RNA TRANSCRIPTION UNITS IN CHROMATIN SPREADS ARE RIBOSOMAL-RNA PROCESSING COMPLEXES

被引:156
|
作者
MOUGEY, EB
OREILLY, M
OSHEIM, Y
MILLER, OL
BEYER, A
SOLLNERWEBB, B
机构
[1] UNIV VIRGINIA, DEPT BIOL, CHARLOTTESVILLE, VA 22908 USA
[2] UNIV VIRGINIA, DEPT MICROBIOL, CHARLOTTESVILLE, VA 22908 USA
来源
GENES & DEVELOPMENT | 1993年 / 7卷 / 08期
关键词
RIBOSOMAL-RNA PROCESSING COMPLEX; TERMINAL BALLS; EUKARYOTIC RIBOSOMAL-RNA TRANSCRIPTION UNITS; CHROMATIN SPREADS; X-LAEVIS;
D O I
10.1101/gad.7.8.1609
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
When spread chromatin is visualized by electron microscopy, active rRNA genes have a characteristic Christmas tree appearance: From a DNA ''trunk'' extend closely packed ''branches'' of nascent transcripts whose ends are decorated with terminal ''balls.'' These terminal balls have been known for more than two decades, are shown in most biology textbooks, and are reported in hundreds of papers, yet their nature has remained elusive. Here, we show that a rRNA-processing signal in the 5'-external transcribed spacer (ETS) of the Xenopus laevis ribosomal primary transcript forms a large, processing-related complex with factors of the Xenopus oocyte, analogous to 5' ETS processing complexes found in other vertebrate cell types. Using mutant rRNA genes, we find that the same rRNA residues are required for this biochemically defined complex formation and for terminal ball formation, analyzed electron microscopically after injection of these cloned genes into Xenopus oocytes. This, plus other presented evidence, implies that rRNA terminal balls in Xenopus, and by inference, also in the multitude of other species where they have been observed, are the ultrastructural visualization of an evolutionarily conserved 5' ETS processing complex that forms on the nascent rRNA.
引用
收藏
页码:1609 / 1619
页数:11
相关论文
共 50 条
  • [31] RIBOSOMAL-RNA CONTENTS OF MAIZE GENOTYPES WITH DIFFERENT RIBOSOMAL-RNA GENE NUMBERS
    BUESCHER, PJ
    PHILLIPS, RL
    BRAMBL, R
    BIOCHEMICAL GENETICS, 1984, 22 (9-10) : 923 - 930
  • [32] INVOLVEMENT OF DNA GYRASE IN THE TRANSCRIPTION OF RIBOSOMAL-RNA
    OOSTRA, BA
    AB, G
    GRUBER, M
    NUCLEIC ACIDS RESEARCH, 1980, 8 (18) : 4235 - 4246
  • [33] MULTIPLE MODES OF RIBOSOMAL-RNA TRANSCRIPTION INVITRO
    TRAVERS, A
    CELL, 1976, 8 (04) : 605 - 609
  • [34] EVENTS DURING RIBOSOMAL-RNA TRANSCRIPTION INITIATION
    PAULE, MR
    RADEBAUGH, CA
    LI, H
    MATTHEWS, JL
    GEISS, GK
    LIU, F
    WONG, JM
    BATEMAN, E
    JOURNAL OF CELLULAR BIOCHEMISTRY, 1994, : 7 - 7
  • [35] TRANSCRIPTION AND SPLICING OF THE RIBOSOMAL-RNA PRECURSOR OF TETRAHYMENA
    CECH, TR
    ZAUG, AJ
    GRABOWSKI, PJ
    BREHM, SL
    CELL NUCLEUS, 1982, 10 : 171 - 204
  • [36] TRANSCRIPTION OF MOUSE AND FROG RIBOSOMAL-RNA GENES
    SOLLNERWEBB, B
    HENDERSON, S
    WINDLE, J
    CULOTTA, V
    PAPE, L
    TOWER, J
    JOURNAL OF CELLULAR BIOCHEMISTRY, 1987, : 46 - 46
  • [37] PROMOTER OCCLUSION DURING RIBOSOMAL-RNA TRANSCRIPTION
    BATEMAN, E
    PAULE, MR
    CELL, 1988, 54 (07) : 985 - 992
  • [38] DICTYOSTELIUM RIBOSOMAL-RNA IS PROCESSED DURING TRANSCRIPTION
    GRAINGER, RM
    MAIZELS, N
    CELL, 1980, 20 (03) : 619 - 623
  • [39] MODULATION OF TRANSCRIPTION OF RIBOSOMAL-RNA GENES BY RAPAMYCIN
    MAHAJAN, PB
    INTERNATIONAL JOURNAL OF IMMUNOPHARMACOLOGY, 1994, 16 (09): : 711 - 721
  • [40] TRANSCRIPTION OF AN ARTIFICIAL RIBOSOMAL-RNA GENE IN YEAST
    KEMPERSVEENSTRA, AE
    VANHEERIKHUIZEN, H
    MUSTERS, W
    KLOOTWIJK, J
    PLANTA, RJ
    EMBO JOURNAL, 1984, 3 (06): : 1377 - 1382
12345