Ribosomal RNA Processing and Ribosome Biogenesis in Eukaryotes

AbstractPrimary microcephaly (MCPH) is characterized by reduced brain size and intellectual disability. The exact pathophysiological mechanism underlying MCPH remains to be elucidated, but dysfunction of neuronal progenitors in the developing neocortex plays a major role. We identified a homozygous missense mutation (p.W155C) in Ribosomal RNA Processing 7 Homolog A, RRP7A, segregating with MCPH in a consanguineous family with 10 affected individuals. RRP7A is highly expressed in neural stem cells in developing human forebrain, and targeted mutation of Rrp7a leads to defects in neurogenesis and proliferation in a mouse stem cell model. RRP7A localizes to centrosomes, cilia and nucleoli, and patient-derived fibroblasts display defects in ribosomal RNA processing, primary cilia resorption, and cell cycle progression. Analysis of zebrafish embryos supported that the patient mutation in RRP7A causes reduced brain size, impaired neurogenesis and cell proliferation, and defective ribosomal RNA processing. These findings provide novel insight into human brain development and MCPH.

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Faculty Opinions recommendation of Frameshift mutation in p53 regulator RPL26 is associated with multiple physical abnormalities and a specific pre-ribosomal RNA processing defect in diamond-blackfan anemia.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.717981998.793471832 ◽

2013 ◽

Author(s):

Sharon Savage ◽

Lisa Mirabello

Keyword(s):

Ribosomal Rna ◽

Rna Processing ◽

Frameshift Mutation ◽

Diamond Blackfan Anemia ◽

Processing Defect ◽

Ribosomal Rna Processing

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S1 nuclease mapping analysis of ribosomal RNA processing in wild type and processing deficient Escherichia coli.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(17)44336-5 ◽

1983 ◽

Vol 258 (19) ◽

pp. 12034-12042

Author(s):

T C King ◽

D Schlessinger

Keyword(s):

Escherichia Coli ◽

Ribosomal Rna ◽

Rna Processing ◽

Wild Type ◽

S1 Nuclease ◽

Mapping Analysis ◽

S1 Nuclease Mapping ◽

Ribosomal Rna Processing ◽

Nuclease Mapping

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Adenovirus infection retards ribosomal RNA processing

Journal of Cellular Physiology ◽

10.1002/jcp.1041380127 ◽

1989 ◽

Vol 138 (1) ◽

pp. 205-207 ◽

Cited By ~ 1

Author(s):

Susan H. Lawler ◽

Robert W. Jones ◽

Brian P. Eliceiri ◽

George L. Eliceiri

Keyword(s):

Ribosomal Rna ◽

Rna Processing ◽

Adenovirus Infection ◽

Ribosomal Rna Processing

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Developmental expression of fibrillarin and U3 snRNA in Xenopus laevis

Development ◽

10.1242/dev.112.1.317 ◽

1991 ◽

Vol 112 (1) ◽

pp. 317-326

Author(s):

M. Caizergues-Ferrer ◽

C. Mathieu ◽

P. Mariottini ◽

F. Amalric ◽

F. Amaldi

Keyword(s):

Ribosomal Rna ◽

Rna Processing ◽

Protein Detection ◽

Developmental Expression ◽

Oocyte Growth ◽

Small Nuclear Ribonucleoprotein ◽

Hybridization Probes ◽

Ribosomal Rna Processing ◽

Protein Components ◽

Nuclear Ribonucleoprotein

Fibrillarin is one of the protein components that together with U3 snRNA constitute the U3 snRNP, a small nuclear ribonucleoprotein particle involved in ribosomal RNA processing in eucaryotic cells. Using an antifibrillarin antiserum for protein detection and a fibrillarin cDNA and a synthetic oligonucleotide complementary to U3 snRNA as hybridization probes, the expression of these two components has been studied during Xenopus development. Fibrillarin mRNA is accumulated early in oogenesis, like many other messengers, and translated during oocyte growth. Fibrillarin protein is thus progressively accumulated throughout oogenesis to be assembled with U3 snRNA and used for ribosome production in the amplified nucleoli. After fertilization, the amount of U3 snRNA decreases while the maternally accumulated fibrillarin mRNA is maintained and utilized to produce more protein. After the mid-blastula transition, stored fibrillarin is assembled with newly synthesized U3 snRNA and becomes localized in the prenucleolar bodies and reforming nucleoli.

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