Antibiotic interactions at the GTPase-associated centre within Escherichia coli 23S rRNA.

A comprehensive range of chemical reagents and ribonucleases was employed to investigate the interaction of the antibiotics thiostrepton and micrococcin with the ribosomal protein L11-23S RNA complex and with the 50S subunit. Both antibiotics block processes associated with the ribosomal A-site but differ in their effects on GTP hydrolysis, which is inhibited by thiostrepton and stimulated by micrococcin. The interaction sites of both drugs were shown to occur within the nucleotide sequences A1067-A1098 within the protein L11 binding site on 23S RNA. This region of the ribosome structure is involved in elongation factor-G-dependent GTP hydrolysis and in the stringent response. No effects of drug binding were detected elsewhere in the 23S RNA. In general, the two drugs afforded 23S RNA similar protection from the chemical and nuclease probes in accord with their similar modes of action. One important exception, however, occurred at nucleotide A1067 within a terminal loop where thiostrepton protected the N-1 position while micrococcin rendered it more reactive. This difference correlates with the opposite effects of the two antibiotics on GTPase activity.     

Effect of thiostrepton and 3′-terminal fragments of aminoacyl-tRNA on EF-Tu and ribosome-dependent GTP hydrolysis

The effect of the antibiotics thiostrepton and micrococcin on EF-T_u-catalyzed (ribosome-dependent) GTP hydrolysis in the presence of A-Phe, C-A-Phe, or C-C-A-Phe (related to the sequence of the 3′-terminus of aminoacyl-tRNA)(System I) or by methanol (‘uncoupled GTPase’, System II) was investigated. In System I, thiostrepton increases the binding affinities of the effectors to the EF-T_u·GTP·70 S ribosome complex, as well as the extent of the GTP hydrolysis, while the K^GTP_m is virtually unchanged. Similarly, in the uncoupled system (System II) and in the absence of effectors, thiostrepton significantly increases V^GTP_max, whereas K^GTP_m remains unaffected. Micrococcin is without any effect in both systems. The ‘uncoupled GTPase’ (in System II) is also strongly inhibited by C-A-Phe. The results indicate the crucial role of the EF-T_u site which binds the aminoacylated C-C-A terminus of aminoacyl-tRNA in promoting GTP hydrolysis. It follows that the binding of the model effectors (such as C-C-A-Phe) to that site is favorably influenced by the interaction of thiostrepton with the 50 S ribosomal subunit, whereas thiostrepton, per se, does not influence the affinity of EF-T_u for GTP.     

Ribosomal proteins of Streptomyces aureofaciens producing tetracycline

Three different two-dimensional polyacrylamide gel electrophoretic systems were employed for identification of individual ribosomal proteins of Streptomyces aureofaciens. Proteins of small subunits were resolved into 21 spots. Larger ribosomal subunits contained 35 proteins. The separated ribosomal proteins from 50 S subunits were transferred on nitrocellulose membranes for immunochemical estimations. Antibodies developed against 50 S proteins of S. aureofaciens and Escherichia coli were used for identification of structural homologies between 50 S proteins of the two species. Results of the experiments indicate that about one half of the 50 S proteins of S. aureofaciens share common immunochemical determinants with corresponding proteins of 50 S subunits of E. coli. Evidence is presented that acidic ribosomal protein SL5 of large ribosomal subunits of S. aureofaciens can be assembled to E. coli P₀ cores lacking proteins L7/L12. Reconstitution of the P₀ cores with proteins SL5 or L7/L12 led to restoration of 78% activity in polyphenylalanine synthesis.     

An Examination of the Differential Sensitivity to Ketolide Antibiotics in <Emphasis Type="Italic">ermB</Emphasis> Strains of <Emphasis Type="Italic">Streptococcus pyogenes</Emphasis> and <Emphasis Type="Italic">Streptococcus pneumoniae</Emphasis>

Several reports in the literature have described a differential sensitivity to ketolide antibiotics in ermB strains of Streptococcus pyogenes and Streptococcus pneumoniae resistant to erythromycin. Strains of S. pyogenes and S. pneumoniae carrying different erm gene alleles were examined for their susceptibility to the ketolide antibiotics cethromycin (ABT-773) and telithromycin. The effect of the antibiotics on cell growth and viability was assessed as were effects on protein synthesis and 50S ribosomal subunit formation. The susceptibility of wild-type strains of both organisms was compared with effects in strains containing the ermA and ermB methyltransferase genes. A wild-type antibiotic-susceptible strain of S. pyogenes was comparable to an ermA strain of the organism in its ketolide sensitivity, with IC₅₀ values for 50% inhibition of protein synthesis and 50S ribosomal subunit formation of 10 ng/mL for cethromycin and 16 ng/mL for telithromycin. An S. pneumoniae strain with the ermB gene and an S. pyogenes strain with the ermA gene were also similar in their sensitivity to ketolide inhibition. IC₅₀ values for inhibition of translation and subunit formation in S. pneumoniae (ermB) were 30 ng/mL and 55 ng/mL and for the ermA strain of S. pyogenes they were 15 ng/mL and 35 ng/mL respectively. By contrast, an S. pyogenes ermB strain was significantly more resistant to both ketolides, with IC₅₀ values for inhibition of 50S synthesis of 215 and 380 ng/mL for the two ketolides. Experiments were conducted to examine ribosome synthesis and translational activity in the two ermB strains at intervals during growth in the presence of each antibiotic. Cell viability and 50S subunit formation were dramatically reduced in the S. pneumoniae strain during continued growth with either drug. By contrast, the ketolides had little effect on the S. pyogenes strain growing with the antibiotics. The results indicate that ketolides have a reduced inhibitory effect on translation and 50S subunit synthesis in S. pyogenes with the ermB gene compared with the other strains examined.     

The Macrocyclic Peptide Antibiotic Micrococcin P1 Is Secreted by the Food-Borne Bacterium Staphylococcus equorum WS 2733 and Inhibits Listeria monocytogenes on Soft Cheese

Staphylococcus equorum WS 2733 was found to produce a substance exhibiting a bacteriostatic effect on a variety of gram-positive bacteria. The metabolite was purified to homogeneity by ammonium sulfate precipitation and semipreparative reversed-phase high-performance liquid chromatography. Electrospray mass spectrometry confirmed the high purity of the compound and revealed a molecular mass of 1,143 Da. By two-dimensional nuclear magnetic resonance spectroscopy the substance was identified as micrococcin P₁ which is a macrocyclic peptide antibiotic that has not yet been reported for the genus Staphylococcus. A total of 95 out of 95 Listeria strains and 130 out of 135 other gram-positive bacteria were inhibited by this substance, while none of 37 gram-negative bacteria were affected. The antilisterial potential of this food-grade strain as a protective starter culture was evaluated by its in situ application in cheese-ripening experiments under laboratory conditions. A remarkable growth reduction of Listeria monocytogenes could be achieved compared to control cheese ripened with a nonbacteriocinogenic type strain of Staphylococcus equorum. In order to prove that inhibition was due to micrococcin P₁, a micrococcin-deficient mutant was constructed which did not inhibit L. monocytogenes in cheese-ripening experiments.     

Functional 70S hybrid ribosomes from blue-green algae and bacteria

Hybrid 70S ribosomes were produced by combining Anacystis nidulans and Escherichia coli 30S and 50S subunits. Both the A. nidulans 30S-E. coli 50S and E. coli 30S- A. nidulans 50S hybrids were functional in synthesizing protein when tested in a standard in vitro amino acid incorporating system. Both 70S hybrids were inhibited by streptomycin but the degree of inhibition was dependent upon the source of the 30S subunit. The ability to form functional 70S ribosomes from subunits of blue-green algae and bacteria is further evidence of the procaryotic nature of blue-greens and of the functional homology of the two protein synthesizing systems.     

A potential role of alkaloid extracts from Salsola species (Chenopodiaceae) in the treatment of Alzheimer's disease

From the aerial parts of Salsola oppositofolia, S. soda and S. tragus an alkaloid extract was obtained and tested to evaluate antioxidant and anti-cholinesterase activities. The in vitro study of the antioxidant activity by the DPPH method revealed a significant activity of Salsola alkaloid extracts with IC₅₀ values ranging from 16.30 μg/mL for S. oppositifolia to 26.17 μg/mL for S. tragus. Acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) inhibitory activities were evaluated. S. tragus alkaloid extract exerted the highest inhibitory activity against AChE (IC₅₀ of 30.2 μg/mL) and BChE (IC₅₀ of 26.5 μg/mL). Interestingly, S. soda and S. oppositifolia exhibited a selective inhibitory activity against BChE with IC₅₀ values of 34.3 μg/mL and 32.7 μg/mL, respectively. Tetrahydroisoquinoline alkaloids were identified and quantified by GC/MS analysis.     

Streptococcus panodentis sp. nov. from the oral cavities of chimpanzees

Three strains TKU9, TKU49 and TKU50^T, were isolated from the oral cavities of chimpanzees (Pan troglodytes). The isolates were all gram‐positive, facultative anaerobic cocci that lacked catalase activity. Analysis of partial 16S rRNA gene sequences showed that the most closely related species was Streptococcus infantis (96.7%). The next most closely related species to the isolates were S. rubneri, S. mitis, S. peroris and S. australis (96.6 to 96.4%). Based on the rpoB and gyrB gene sequences, TKU50^T was clustered with other member of the mitis group. Enzyme activity and sugar fermentation patterns differentiated this novel bacterium from other members of the mitis group streptococci. The DNA G + C content of strain TKU50^T was 46.7 mol%, which is the highest reported value for members of the mitis group (40–46 mol%). On the basis of the phenotypic characterization, partial 16S rRNA gene and sequences data for two housekeeping gene (gyrB and rpoB), we propose a novel taxa, S. panodentis for TKU 50^T (type strain = CM 30579^T = DSM 29921^T), for these newly described isolates.     

Gene locus of a 30s ribosomal protein S20 of Bacillus subtilis

Summary The gene locus of the 30s ribosomal protein S20 of Bacillus subtilis was mapped in the str-region at the right side of S5 gene. The gene order was cysA-str(S12)-ery(50D)-[spc(S5); 50G]-S20-.     

Role of polyamines in the binding of initiator tRNA to the 70S ribosomes of extreme thermophilic bacterium Calderobacterium hydrogenophilum

Slowly cooled cells of an extreme thermophilic eubacterium Calderobacterium hydrogenophilum possess ribosomes with weakly associated subunits. These ribosomal subunits are capable of association to 70S ribosomes either at higher Mg²⁺ concentrations (30–40 mM) or at 4–10 mM Mg²⁺ and in the presence of polyamines. The contribution of 30S and 50S subunits to the hydrodynamic stability of ribosomes was examined by forming hybrid 30S–50S couples from C. hydrogenophilum and Escherichia coli. At lower Mg²⁺ (4–10 mM) heterogeneous subunits containing 30S E. coli and 50S C. hydrogenophilum and homogeneous subunits of the thermophilic bacterium associated only in the presence of polyamines. Ribosomal subunits associated at 30 mM Mg²⁺ lose thermal stability and activity concerning poly(AUG)-dependent binding of f[³H]Met-tRNA to the P-site on 70S ribosomes or translation of poly(UG). Poly(AUG), deacylated-tRNA or initiator-tRNA have no valuable effect on association of 30S and 50S subunits. Protein synthesis initiation factor IF3 of C. hydrogenophilum prevents association of ribosomal subunits to 70S ribosomes at physiological temperature (70°C). The factor also stimulates dissociation of 70S ribosomes of E. coli at 37°C. The codon-specific binding of f[³H]Met-tRNA to homogeneous 70S ribosomes of C. hydrogenophilum at 70°C is dependent on the presence of initiation factors and concentrations of tri-pentaamines. However, excess of polyamines inhibited the reaction. Our results indicate that tri-pentaamines enhance conformational stability of 70S initiation complex at elevated temperatures.     

Respiration and NADH-Oxidation of the Roots of Flood-Tolerant and Flood-Intolerant Senecio Species as Affected by Anaerobiosis

Respiration was measured under anaerobiosis in the roots of two Senecio species: S. aquaticus Hill, which is flood-tolerant, and S. jacobaea L., which is flood-intolerant. NADH-oxidation under anaerobiosis was measured in roots of S. aquaticus, S. jacobaea and S. vulgaris L., which is also flood-intolerant. Protein content of S. aquaticus was about 15% higher under anaerobiosis. At 20°C respiration of the roots of S. aquaticus was 50% inhibited under anaerobiosis, while an almost complete inhibition occurred in the roots of S. jacobaea. The activities of nitrate reductase, glutamate dehydrogenase and lactate dehydrogenase were considerably higher in the roots of S. aquaticus grown under anaerobic conditions than in roots grown under aerobic conditions. In S. jacobaea glutamate dehydrogenase activity was lower and in S. vulgaris nitrate reductase was lower and glutamate dehydrogenase activity was higher in roots grown under anaerobic conditions. The possible role of these enzymes for metabolism under anaerobic conditions by oxidizing a surplus of NADH is discussed. Since oxidative phosphorylation is 50% inhibited under anaerobiosis, ATP has to be generated in a different way. It is argued that maintenance of the ATP-level may be compensated by way of the enzymes mentioned above, in combination with a modified glucose utilization.     

Bevorzugter Einbau markierten Uridins in die Vorläufer von Chloroplasten-Ribosomen in Algenzellen

Summary After short time pulses with 5-[3H]uridine have been given to Chlorella cells, most of the radioactivity of the ribosome fractions is neither in the polysomes nor in the cytoplasmic ribosomes. Peaks with sedimentation of about 50 S and 30 S are found which are comparable in sedimentation to ribosomal subunits of Escherichia coli. During chase treatment with the one-hundred-fold amount of unlabelled uridine, the radioactivity shifts into the 70 S region. The RNA of the rapidly labelled 50 S and 30 S particles is shown to have 23 S, 14 S and 5 S, respectively.In contrast to this, radioactive inorganic phosphate and amino acids are mainly incorporated into the cytoplasmic ribosomes with 80 S and into, their polysomes.The chloroplast-damaged mutant of Chlorella, Nr.125 of Schwarze, shows no uridine incorporation into particles of 50 S and of 30 S, but some very weak labelling of the 80 S cytoplasmic monosomes.Nitrogen deficient Chlorella cells also incorporate uridine mainly into the 50 S and 30 S particles. When chase treatment with unlabelled uridine is performed under recovering conditions, the label shifts into the 70 S particles as well as into the 80 S cytoplasmic ribosomes.The results indicate that in Chlorella, uridine is incorporated into chloroplast ribosome precursors rather than into particles of nuclear origin.     

Specific binding of ribosome recycling factor (RRF) with the Escherichia coli ribosomes by BIACORE

The direct assays on Biacore with immobilised RRF and purified L11 from E. coli in the flow trough have shown unspecific binding between the both proteins. The interaction of RRF with GTPase domain of E. coli ribosomes, a functionally active complex of L11 with 23S r RNA and L10.(L7/L12)₄ was studied by Biacore. In the experiments of binding of RRF with 30S, 50S and 70S ribosomes from E. coli were used the antibiotics thiostrepton, tetracycline and neomycin and factors, influencing the 70S dissociation Mg²⁺, NH₄Cl, EDTA. The binding is strongly dependent from the concentrations of RRF, Mg²⁺, NH₄Cl, EDTA and is inhibited by thiostrepton. The effect is most specific for 50S subunits and indicates that the GTPase centre can be considered as a possible site of interaction of RRF with the ribosome. We can consider an electrostatic character of the interactions with most probable candidate 16S and 23S r RNA at the interface of 30S and 50S ribosomal subunits.     

Genetic studies of the ribosomal proteins in Escherichia coli. 8. Mapping of ribosomal protein components by intergeneric mating experiments between Serratia marcescens and Escherichia coli

Summary Ribosomal protein compositions of Serratia marcescens and Escherichia coli K12 were analyzed by using carboxymethyl cellulose column chromatography. Nine 50S and nine 30S ribosomal proteins of E. coli K12 could be distinguished from those of S. marcescens on the chromatogram.Episomes of E. coli K12, which cover the streptomycin(str) region of the chromosome, were transferred to S. marcescens. Chromatographic analyses were made on the ribosomal proteins extracted from these hybrid strains. At least nine 30S and six 50S ribosomal proteins of E. coli-type could be detected in the ribosomes of the hybrid strains in addition to the ribosomal proteins of S. marcescens.     

Inhibitory effects of microalgae on the activation of hyaluronidase

The inhibitory effects of seven microalgae, Nostoc flagelliforme, Spirulina platensis, Porphyridium purpureum, Rhodosorus marinus,Chlorella pyrenoidosa, Dunaliella salina and Pleurochrysiscarterae on the activation of hyaluronidase were evaluated. Theinhibitory effect of the ethanol-insoluble fraction of each water extract frommicroalgae was stronger than that of the ethanol-soluble fraction. The50% inhibitory concentration (IC₅₀) of the ethanol-insolublefraction of S. platensis, P. purpureum, R. marinus, C.pyrenoidosa, D. salina and P. carterae was 0.15, 0.18, 0.26,0.94, 0.15 and 0.41 mg mL^-1, respectively. The IC₅₀ ofN .flagelliforme was not calculated, because there was no detectableinhibitory effect of this alga. The IC₅₀ of disodium cromoglycate(DSCG) used as the anti-allergic medicine was 0.14 mg mL^-1. The IC₅₀ of S. platensis, P. purpureum and D. salinawere almost the same as that of DSCG. This suggests that theethanol-insoluble fraction of S. platensis, P. purpureum and D. salina might be an anti-allergic substance. The ethanol-insoluble fractionof S. platensis and D. salina was ultrafiltered through a membranehaving a molecular exclusion limit of 20 kDa. The IC₅₀ of theresidue was stronger than that of the filtrate. These results suggest that theanti-allergic substance(s) of these microalgae may be polysaccharides.     

Analysis of proteinase A function in yeast

The antibiotic, micrococcin, binds to complexes formed between bacterial 23-S ribosomal RNA and ribosomal protein L11 and, in doing so, inhibits of thiostrepton. In assay systems simulating partial reaction of protein synthesis, micrococcin inhibits a number of processes believed to involve the ribosomal A site while stimulating GTP hydrolysis dependent upon ribosomes and elongation factor EF-G. The latter effect is not observed upon ribosomes lacking a protein homologous with protein L11. Nor is it apparent upon those containing 23-S RNA previously subjected to the action of a specific methylase known to render ribosomes resistant to thiostrepton. It is concluded that stimulation by micrococcin of factor-dependent GTP hydrolysis results from the binding of the drug to its normal target site which involves 23-S RNA and protein L11.     

一株分离自流浪猫的猪链球菌9型的分子生物学鉴定北大核心CSCD

【目的】猪链球菌是一种能感染人和猪的人畜共患病病原,并且还可零星感染多种哺乳动物。本试验旨在调查流浪猫携带猪链球菌的情况。【方法】在流浪猫身上分离猪链球菌,经血清凝集实验和PCR检测,鉴定其血清型;经多序列位点分型分析,鉴定其ST型;将所分离的细菌与Gen Bank上已公布的猪链球菌构建16S rRNA的系统发育树,分析该菌株与其他猪链球菌的亲缘关系;药敏纸片法分析其耐药性;小鼠攻毒试验分析其毒力。【结果】本试验在流浪猫身上分离到一株猪链球菌,命名为m70,其血清型为9型。多序列位点分型显示,m70株属于一个新的ST型。与Gen Bank上已公布的猪链球菌16S rRNA进行系统发育树分析,结果显示m70属于一个单独的分支。m70与临床菌株的耐药情况相似,对四环素耐药,对红霉素中介耐药,对氨苄西林敏感。小鼠攻毒试验显示,感染10~8 CFU剂量m70的小鼠,死亡率达到60%–80%（3/5–4/5）,3次攻毒试验的平均LD（50）为5.1×107 CFU;而本实验室保存的猪链球菌强毒株HA9801感染小鼠的平均LD（50）为3.9×107 CFU,两者之间没有显著差异（P〈0.05）。【结论】从流浪猫身上分离得到的猪链球菌m70属于优势血清型,且毒力较强,提示一些流行血清型的猪链球菌强毒株具有从流浪猫传染人的潜在风险。     

The antibiotics micrococcin and thiostrepton interact directly with 23S rRNA nucleotides 1067A and 1095A.

The antibiotics thiostrepton and micrococcin bind to the GTPase region in domain II of 23S rRNA, and inhibit ribosomal A-site associated reactions. When bound to the ribosome, these antibiotics alter the accessibility of nucleotides 1067A and 1095A towards chemical reagents. Plasmid-coded Escherichia coli 23S rRNAs with single mutations at positions 1067 or 1095 were expressed in vivo. Mutant ribosomes are functional in protein synthesis, although those with transversion mutations function less effectively. Antibiotics were bound under conditions where wild-type and mutant ribosomes compete in the same reaction for drug molecules; binding was analysed by allele-specific footprinting. Transversion mutations at 1067 reduce thiostrepton binding more than 1000-fold. The 1067G substitution gives a more modest decrease in thiostrepton binding. The changes at 1095 slightly, but significantly, lower the affinity of ribosomes for thiostrepton, again with the G mutation having the smallest effect. Micrococcin binding to ribosomes is reduced to a far greater extent than thiostrepton by all the 1067 and 1095 mutations. Extrapolating these results to growing cells, mutation of nucleotide 1067A confers resistance towards micrococcin and thiostrepton, while substitutions at 1095A confer micrococcin resistance, and increase tolerance towards thiostrepton. These data support an rRNA tertiary structure model in which 1067A and 1095A lie in close proximity, and are key components in the drug binding site. None of the mutations alters either the higher order rRNA structure or the binding of r-proteins. We therefore conclude that thiostrepton and micrococcin interact directly with 1067A and 1095A.     

The ketolide antibiotic ABT-773 is a specific inhibitor of translation and 50S ribosomal subunit formation in Streptococcus pneumoniae cells

ABT-773 is a new 3-keto macrolide antibiotic that has been shown to be very effective against infections by Gram-positive microorganisms. This work examines its inhibitory effects in cells of Streptococcus pneumoniae. ABT-773 caused a proportional decline in cell growth rates and viability with an IC₅₀ of 5 ng/ml. Protein synthesis in these cells was reduced by 50% at an antibiotic concentration of 2.5 ng/ml. This compound was also found to be a very effective inhibitor of the formation of the 50S ribosomal subunit in growing cells. Pulse and chase labeling assays revealed a reduced rate of 50S synthesis in antibiotic-treated cells. At 2 ng/ml, the rate was reduced to 33% of the control synthesis rate. An IC₅₀ of 5 ng/ml was found for the effect on this process, indicating an equal effect of the drug on translation and assembly. Synthesis of the 30S ribosomal subunit was unaffected by this antibiotic. The effects of ABT-773 in S. pneumoniae are compared with those of the related ketolide antibiotic telithromycin in S. pneumoniae and in Staphylococcus aureus. Received: 6 November 2001 / Accepted: 14 December 2001     

Chromosomal characterization of two species of genus <Emphasis Type="Italic">Steatogenys</Emphasis> (Gymnotiformes: Rhamphichthyoidea: Steatogenini) from the Amazon basin: sex chromosomes and correlations with Gymnotiformes phylogeny

Gymnotiformes are an important component of the Neotropical ichthyofauna and they are known for their ability to generate and detect electrical discharges. Phylogenetic relationships of Gymnotiformes are still not well understood. However, the monophyly of the superfamily Rhamphichthyoidea is well accepted, despite the position of tribe Steatogenini (Steatogenys, Hypopygus and Stegostenopos) within this superfamily is unclear. The genus Steatogenys includes three species that, together with Hypopygus and Stegostenopos, form tribe Steatogenini. Cytogenetic information is currently only available for Hypopygus lepturus. Here, we describe the karyotypes of Steatogenys elegans from four localities and S. duidae from two localities. S. elegans was found to have 2n = 50, ZZ/ZW (12m-sm/38st-a), while S. duidae had 2n = 50 (50m-sm). In S. elegans, constitutive heterochromatin (CH) was observed in the centromeric regions of all chromosomes, in the interstitial region of 1q, and in two blocks of Wq. In S. duidae, CH was observed in the centromeric and pericentromeric regions of all chromosomes, and in the interstitial regions of 2q, 3q, 5q, and 7q. Nucleolar organizer regions (NORs) were identified in the distal regions of one chromosome pair in each species. The CMA₃ fluorochrome (specific to G-C rich regions) coincided with the NORs in both species, and with the HC of S. elegans except on chromosome pair 5 and the W. The DAPI fluorochrome (specific to A-T rich regions) coincided with the CH of both species, and was very intense for chromosome pair 5 and the W of S. elegans. Our observations suggest that the ZZ/ZW system observed in S. elegans likely evolved through CH addition followed by a paracentric inversion. The chromosomal data described herein are consistent with the phylogenetic hypothesis that tribe Steatogenini should be positioned within family Ramphychthyidae.