David Apirion

David Apirion's AcademicInfluence.com Rankings

David Apirion

Biology

#11034

World Rank

#14408

Historical Rank

Molecular Biology

#1656

World Rank

#1684

Historical Rank

Biochemistry

#1793

World Rank

#1930

Historical Rank

biology Degrees

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Biology

David Apirion's Degrees

PhD Molecular Biology University of California, Berkeley
Masters Biochemistry Stanford University

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David Apirion's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Structural analysis and in vitro processing to p5 rRNA of a 9S RNA molecule isolated from an rne mutant of E. coli (1978) (234)
RNase E, an RNA processing enzyme from Escherichia coli. (1979) (172)
Biosynthetic precursors of 30S and 50S ribosomal particles in Escherichia coli. (1968) (162)
A conditional lethal mutant of Escherichia coli which affects the processing of ribosomal RNA. (1978) (125)
Mechanism of action of streptomycin in E. coli: interruption of the ribosome cycle at the initiation of protein synthesis. (1968) (122)
Processing enzyme ribonuclease E specifically cleaves RNA I. An inhibitor of primer formation in plasmid DNA synthesis. (1985) (122)
Small Stable RNAs from Escherichia coli: Evidence for the Existence of New Molecules and for a New Ribonucleoprotein Particle Containing 6S RNA (1978) (120)
Multiple pathways for primary processing of ribosomal RNA in Escherichia coli. (1977) (120)
Isolation, genetic mapping and some characterization of a mutation in Escherichia coli that affects the processing of ribonuleic acid. (1978) (115)
RNA processing in prokaryotic cells (1993) (105)
The gene specifying RNase E (rne) and a gene affecting mRNA stability (ams) are the same gene (1991) (103)
Processing of procaryotic ribonucleic acid. (1981) (100)
The two-way selection of mutants and revertants in respect of acetate utilization and resistance to fluoro-acetate in Aspergillus nidulans. (1965) (92)
The fate of ribosomes in Escherichia coli cells starved for a carbon source. (1975) (90)
Biochemical and genetic studies on two different types of erythromycin resistant mutants of Escherichia coli with altered ribosomal proteins (1973) (87)
Three genes that affect Escherichia coli ribosomes. (1967) (83)
The formation and stabilization of 30S and 50S ribosome couples in Escherichia coli. (1967) (69)
Ribosomal proteins (1970) (68)
Altered ribosomes in a suppressor strain of Escherichia coli. (1966) (67)
The gene for a small stable RNA (10Sa RNA) of Escherichia coli (1989) (65)
Mapping and characterization of a mutation in Escherichia coli that reduces the level of ribonuclease III specific for double-stranded ribonucleic acid (1975) (63)
Polyribosome metabolism in Escherichia coli treated with chloramphenicol, neomycin, spectinomycin or tetracycline. (1969) (59)
Coresistance to Neomycin and Kanamycin by Mutations in an Escherichia coli Locus that Affects Ribosomes (1968) (57)
Maturation of 5-S rRNA: ribonuclease E cleavages and their dependence on precursor sequences. (1983) (57)
Selection of Sucrose-Dependent Escherichia coli To Obtain Envelope Mutants and Fragile Cultures (1966) (57)
Antitermination and absence of processing of the leftward transcript of coliphage lambda in the RNAase III-deficient host. (1977) (56)
Decay of ribosomal ribonucleic acid in Escherichia coli cells starved for various nutrients. (1975) (54)
The synthesis of some proteins is affected in RNA processing mutants of Escherichia coli. (1980) (53)
A small RNA that complements mutants in the RNA processing enzyme ribonuclease P. (1982) (51)
The involvement of ribonuclease I, ribonuclease II, and polynucleotide phosphorylase in the degradation of stable ribonucleic acid during carbon starvation in Escherichia coli. (1974) (51)
Polyribosome depletion and blockage of the ribosome cycle by streptomycin in Escherichia coli. (1969) (50)
Processing of rRNA by RNAase P: Spacer tRNAs are linked to 16S rRNA in an RNAase P RNAase III mutant strain of E. coli (1978) (49)
10Sa RNA, a small stable RNA of Escherichia coli, is functional (1991) (48)
Electrophoretic and immunological studies on ribosomal proteins of 100 Escherichia coli revertants from streptomycin dependence (1973) (47)
Escherichia coli ribosomes: recent developments. (1969) (43)
Self cleavage of a precursor RNA from bacteriophage T4. (1984) (43)
Transfer RNA precursors are accumulated in Escherichia coli in the absence of RNase E. (1981) (41)
Precursors to 16S and 23S ribosomal RNA from a ribonuclear III-strain of Escherichia coli contain intact RNase III processing sites. (1980) (40)
Identification of a precursor molecular for the RNA moiety of the processing enzyme RNase P. (1983) (40)
Characterization of 10S RNA: A new stable RNA molecule from Escherichia coli (1979) (39)
Degradation of RNA in Escherichia coli. A hypothesis. (1973) (39)
Escherichia coli ribosomal ribonucleic acids are not cut from an intact precursor molecule. (1975) (37)
Ribonuclease V of escherichia coli. I. Dependence on ribosomes and translocation. (1969) (36)
Processing of bacteriophage T4 transfer RNAs. Structural analysis and in vitro processing of precursors that accumulate in RNase E-strains. (1982) (36)
Genetic mapping and some characterization of the rnpA49 mutation of Escherichia coli that affects the RNA-processing enzyme ribonuclease P. (1980) (35)
Genetic Analysis of an Escherichia coli Syndrome (1971) (33)
Chlorophyll lethal in natural populations of the orchard grass (Dactylis glomerata L.). A case of balanced polymorphism in plants. (1961) (32)
Location of a gene (ssrA) for a small, stable RNA (10Sa RNA) in the Escherichia coli chromosome (1990) (32)
Induction of mutations to streptomycin and spectinomycin resistance in Escherichia coli by N-methyl-N'-nitroso-N-nitroguanidine and acridine half-mustard ICR-191. (1967) (32)
Maturation of precursor 10Sa RNA in Escherichia coli is a two-step process: the first reaction is catalyzed by RNase III in presence of Mn2+. (1990) (32)
A possible complex containing RNA processing enzymes. (1982) (31)
Aurintricarboxylic Acid, a Preferential Inhibitor of Initiation of Protein Synthesis (1971) (31)
Identification of a novel RNA molecule in a new RNA processing mutant of Escherichia coli which contains 5 S rRNA sequences. (1979) (29)
Colicin E3: a unique endoribonuclease. (1973) (29)
Changes in ribosomal proteins associated with mutants in a locus that affects Escherichia coli ribosomes. (1968) (29)
RNAase P is dependent on RNAase E action in processing monomeric RNA precursors that accumulate in an RNAase E- mutant of Escherichia coli. (1981) (28)
A General System for the Automatic Selection of Auxotrophs from Prototrophs and Vice Versa in Micro-Organisms (1962) (28)
Mapping and complementation of three genes specifying 30S ribosomal components in Escherichia coli (1968) (28)
Functional interdependence of ribosomal components of Escherichia coli. (1969) (28)
Ribosomal proteins (2004) (27)
Escherichia coli strains with thermolabile ribonuclease II activity. (1972) (27)
Molecular cloning of the gene for the RNA-processing enzyme RNase III of Escherichia coli. (1985) (25)
Gene rne affects the structure of the ribonucleic acid-processing enzyme ribonuclease E of Escherichia coli (1980) (25)
Ribonuclease F, a putative processing endoribonuclease from Escherichia coli. (1981) (24)
Degradation of RNA in Escherichia coli (1973) (24)
Structural characterization and in vitro processing of Escherichia coli ribosomal RNA transcripts containing 5- triphosphates, leader sequences, 16 S rRNA, and spacer tRNAs. (1980) (24)
Sequencing and expression of the rne gene of Escherichia coli (1991) (23)
Reversion from streptomycin dependence in Escherichia coli by a further change in the ribosome (1967) (23)
Identification of lipopolysaccharides and phospholipids of Escherichia coli in polyacrylamide gels (1977) (22)
Processing of bacteriophage T4 tRNAs. The role of RNAase III. (1981) (21)
Processing of precursor particles containing 17S rRNA in a cell free system (1974) (21)
Initiation, processing and termination of ribosomal RNA from a hybrid 5 S ribosomal RNA gene in a plasmid. (1983) (21)
Approaches to the genetics of Escherichia coli ribosomes. (1969) (20)
Is RNase V a manifestation of RNase II? (1971) (20)
Ribonuclease V of Escherichia coli requires Ribosomes and is Inhibited by Drugs (1970) (20)
An Escherichia coli mutant with increased messenger ribonuclease activity. (1971) (20)
Ribonuclease V of Escherichia coli. IV. Exonucleolytic cleavage in the 5' to 3' direction with production of 5'-nucleotide monophosphates. (1970) (20)
Polyribosome metabolism in growing and nongrowing Escherichia coli. (1969) (19)
Ribonuclease III is involved in motility of Escherichia coli (1978) (19)
The loss of phenotypic suppression in streptomycin-resistant mutants. (1967) (19)
Purification and properties of ribonuclelase E, an RNA-processing enzyme from Escherichia coli (1983) (18)
Interplay among processing and degradative enzymes and a precursor ribonucleic acid in the selective maturation and maintenance of ribonucleic acid molecules. (1983) (18)
Effects of chloramphenicol and fusidic acid on polyribosome metabolism in escherichia coli (1969) (18)
10Sa RNA: processing by and inhibition of RNase III. (1992) (18)
Temperature-dependent suppression of UGA and UAA codons in a temperature-sensitive mutant of Escherichia coli. (1969) (18)
Mutants in Escherichia coli ribosomes: a new selection. (1969) (18)
Streptomycin Action: Greater Inhibition of Escherichia coli Ribosome Function with Exogenous than with Endogenous Messenger Ribonucleic Acid (1969) (17)
Escherichia coli: High Resistance or Dependence on Streptomycin Produced by the Same Allele (1968) (17)
7S RNA, containing 5S ribosomal RNA and the termination stem, is a specific substrate for the two RNA processing enzymes RNase III and RNase E. (1984) (17)
Processing of bacterial RNA (1981) (17)
A new endoribonuclease from Escherichia coli. Ribonuclease N. (1976) (17)
5S ribosomal RNA is contained within a 25 S ribosomal RNA that accumulates in mutants of Escherichia coli defective in processing of ribosomal RNA. (1979) (16)
Primary and secondary structure in a precursor of 5 S rRNA. (1982) (16)
Ribonuclease E is involved in the processing of 5-S rRNA from a number of rRNA transcription units. (1982) (16)
Polynucleotide phosphorylase can participate in decay of mRNA in Escherichia coli in the absence of ribonuclease II (1975) (16)
Cloning the gene for ribonuclease E, an RNA processing enzyme. (1980) (16)
The fate of mRNA and rRNA in Escherichia coli. (1975) (15)
Escherichia coli: reversion from streptomycin dependence, a mutation in a specific 30 s ribosomal protein. (1969) (15)
Substitute for agar in solid media for common usages in microbiology (1976) (14)
Binding of erythromycin to the 50S ribosomal subunit is affected by alterations in the 30S ribosomal subunit (1976) (14)
Characterization of the RNA processing enzyme RNase III from wild type and overexpressing Escherichia coli cells in processing natural RNA substrates. (1992) (14)
Anaerobiosis-induced changes in an isoleucyl transfer ribonucleic acid and the 50S ribosomes of Escherichia coli. (1968) (14)
A messenger RNA from the lactose operon of Escherichia coli that can not direct the production of functional -galactosidase in absence of exogenous adenosine 3',5-cyclic monophosphate. (1972) (14)
Characterization of an endoribonuclease, RNase N, from Escherichia coli. (1978) (14)
Separation of Escherichia coli ribonucleases on a DNA agarose column and the identification of an RNase H activity. (1972) (14)
Processing of RNA in Escherichia coli is limited in the absence of ribonuclease III, ribonuclease E and ribonuclease P. (1981) (13)
Recessive mutants at unlinked loci which complement in diploids but not in heterokaryons of Aspergillus nidulans. (1966) (13)
RNA processing in a unicellular microorganism: implications for eukaryotic cells. (1983) (13)
Formal and physiological genetics of ascospore colour in Aspergillus nidulans (1963) (12)
Mapping a cluster of ribosomal genes in Escherichia coli (2004) (12)
Analysis of an Escherichia coli strain carrying physiologically compensating mutations one of which causes an altered ribonuclease III (2004) (11)
7 S RNA: a single site substrate for the RNA processing enzyme ribonuclease E of Escherichia coli. (1983) (10)
Processing of rRNA and tRNA in Escherichia coli: Cooperation between Processing Enzymes (1980) (10)
Functional interdependence of 50S and 30S ribosomal subunits (2004) (10)
Increased inactivation of messengers in Escherichia coli ts mutant. (1972) (10)
Decay of RNA in RNA processing mutants of Escherichia coli (2004) (10)
Consequences of losing ribonuclease III on theEscherichia coli cell (1976) (10)
Research funding and the peer review system. (1979) (9)
Functional interdependence among ribosomal elements as revealed by genetic analysis (2004) (9)
Increased inactivation and degradation of messenger RNA in an Escherichia coli strain containing a thermolabile polynucleotide phosphorylase. (1973) (9)
Inhibition of RNase II by DNA. (1971) (9)
Two new genes located between 2758 and 2761 kilobase pairs on the Escherichia coli genome (1991) (9)
A precursor for a small stable RNA (10Sa RNA) ofEscherichia coli (1989) (9)
Metabolism of ribosomal RNA in mutants of Escherichia coli doubly defective in ribonuclease III and the transcription termination factor rho. (1978) (9)
Analysis of ribosomal proteins in streptomycin resistant and dependent mutants isolated from streptomycin independent Escherichia coli strains (1975) (8)
Improved electrophoretic and immunochemical techniques for the identification and characterization of mutant proteins, applied to ribosomal protein S8 in Escherichia coli mutants (1977) (8)
Synthesis and processing of 5 S rRNA from an rrnB minigene in a plasmid. (1984) (8)
Processing of bacteriophage T4 tRNAs: an RNAase III- strain contains a precursor for tRNAG1n and tRNALeu. (1980) (7)
Aurintricarboxylic Acid a Non-Antibiotic Organic Molecule that Inhibits Protein Synthesis (1975) (7)
A technique for the isolation of mutants of Escherichia coli affected in degradation of cellular RNA. (1974) (7)
A cleavage site of ribonuclease F. A putative processing endoribonuclease from Escherichia coli. (1982) (6)
A Cleavage Site of Ribonuclease F (2005) (6)
Noncoordinate control of RNA, lipopolysaccharide, and phospholipid syntheses during amino acid starvation in stringent and relaxed strains of Escherichia coli (1978) (6)
Inhibition of Polyuridylic Acid-Directed Protein Synthesis by Aurintricarboxylate in Extracts of Escherichia coli (1971) (5)
A site in a tRNA precursor that can be processed by the whole RNase P enzyme but not by the RNA alone. (1984) (5)
Maturation of the 3' end of 5-S ribosomal RNA from Escherichia coli. (1985) (5)
Unaltered stability of newly synthesized RNA in strains of Escherichia coli missing a ribonuclease specific for double-stranded RNA (2004) (5)
Processing and decay of RNA in Escherichia coli: the chicken and egg problem. (1986) (5)
Polynucleotide Phosphorylase Has a Role in Growth of Escherichia coli (1973) (5)
Ribonuclease V of Escherichia coli. V. Requirement for ribosome translocation, but not for polypeptide formation. (1970) (5)
Purification and properties of ribonuclease E, an RNA-processing enzyme from Escherichia coli. (1983) (5)
Revertants from RNase III negative strains of Escherichia coli (1976) (4)
The rne gene and ribonuclease E. (1993) (4)
Hybrid 5 S ribosomal RNA encoded by a multicopy plasmid is incorporated into ribosomes of Escherichia coli (1984) (4)
Characterization of DNA from the rne gene of Escherichia coli: uniqueness of the rne DNA. (1982) (4)
PROCESSING OF RIBOSOMAL RNA IN E. COLI (1976) (4)
Precursor nucleotides at the 5' end are not required for processing by RNase E at the 3' end of 5-S rRNA. (1983) (4)
On the localization of ribonucleases in bacteria (1973) (4)
The ribonuclease-III-processing site near the 5' end of an RNA precursor of bacteriophage T4 and its effect on termination. (2008) (3)
Ribonuclease II Activity in a “Presumptive” Ribonuclease II-Deficient Mutant (1972) (3)
Increased ribonuclease II activity in a temperature sensitive mutant of Escherichia coli (1973) (3)
RNA processing enzymes RNase III, E and P in Escherichia coli are not ribosomal enzymes. (1991) (3)
A lethal mutation which affects the maturation of ribosomes (1976) (3)
Processing of RNA (2017) (3)
Ribosomal RNA Processing in Eukaryotes (2017) (2)
Site of action of 3',5'-cyclic adenosine monophosphate in production of tryptophanase in Escherichia coli. (1972) (2)
A differential effect of adenosine 3', 5'-cyclic monophosphate on the synthesis of functional enzymes from two different cistrons of the LAC operon. (1972) (2)
Small stable RNA of Neurospora crassa (1978) (2)
Processing of procaryotic ribonucleic acid (1981) (2)
A gene affecting accumulation of the RNA moiety of the processing enzyme RNase P (1983) (2)
Escherichia coli Locus that Affects Ribosomes (2)
The rne gene is the structural gene for the processing endoribonuclease RNase E of Escherichia coli (1991) (1)
Repetitive DNA in Escherichia coli: Multiple sequences complementary to small stable RNAs (2004) (1)
Studies on the selection of mutants in Aspergillus nidulans (1963) (1)
Escherichia coli strains with modified RNase II activity: Isolation and properties (2004) (1)
RNA processing: new mutants that affect endonucleolytic processing of RNA. (1983) (1)
Ribosomal mutations affect non-specifically the stability of sex factors in Escherichia coli (2004) (1)
Specificity in RNA Processing Reactions in Escherichia Coli (1988) (1)
COMPONENTS OF ESCHERICHIA COLI (2016) (0)
Genetic approaches to the study of ribosomes (1976) (0)
The Effect of Ribosome Alterations on Ribosome Function, and on Expression of Ribosome and Non‐Ribosome Mutations (2008) (0)
Index authors (1957) (0)
PROCESSING OF RNA IN BACTERIA (1979) (0)
Decay of Ribosomal Ribonucleic Acid in Escherichia Starved for Various Nutrients* (2003) (0)
Ribonuclease II of Escherichia coli is not inhibited by adenosine triphosphate. (1973) (0)
Precursors to 16S and 23S ribosomal RNA from a ribonuclease ur- strain of Escherichia coil contain intact RNase m processing sites (0)
A possible way out of the current quagmire in research funding. (1992) (0)

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Albert Einstein College of Medicine

David Apirion's Academic­Influence.com Rankings

David Apirion's Degrees

Why Is David Apirion Influential?

David Apirion's Published Works

Published Works

What Schools Are Affiliated With David Apirion?

David Apirion's AcademicInfluence.com Rankings