Homologies of the stapedial artery in humans, with a reconstruction of the primitive stapedial artery configuration of Euprimates

Data drawn from the perspectives of paleontology, comparative anatomy, embryology, teratology, and normal adult variation were analyzed with nine homology criteria in order to determine the homologues of the stapedial artery in adult humans. It was determined that 1) the stem of the stapedial artery does not persist within the cranial cavity; 2) the stem of the ramus inferior is retained in its entirety and forms the upper portion of the stem of the middle meningeal artery; 3) the proximal part of the ramus infraorbitalis is normally absent and is replaced by a collateral shunt arising from the ramus mandibularis; 4) the ramus mandibularis is retained and forms the lower portion of the middle meningeal stem and the inferior alveolar artery; 5) the most proximal portion of the maxillary artery is formed by an anastomotic shunt connecting the external carotid artery to the ramus mandibularis; 6) the anterior division of the ramus superior is normally present and well developed; 7) the posterior division of the ramus superior is present in many individuals; and 8) the junction of the two divisions of the ramus superior with the ramus inferior usually migrates to the floor of the middle cranial fossa. The range of human arterial patterns, and those of all other euprimates, can be derived from a hypothetical primitive pattern that is very similar to that of primitive rodents. In this pattern, the stapedial artery stem enters the middle cranial fossa and trifurcates into the anterior and posterior divisions of the ramus superior and the ramus inferior. In their evolution, strepsirhines initially lose the ramus inferior and haplorhines initially reduce the stapedial artery stem.     

Subunit equivalence in Escherichia coli and bovine heart mitochondrial F1F0 ATPases

F₁-ATPases from bovine mitochondria and Escherichia coli both contain 5 subunits named α, β, γ, δ and ε. Sequence analysis shows that the δ subunits are not related, nor are the ε subunits. The counterpart of mitochondrial δ is bacterial ε. The subunit equivalent to bacterial δ is mitochondrial oligomycin sensitivity conferral protein.     

An integumental anatomy for the butterfly Glaucopsyche lygdamus (Lepidoptera:Lycaenidae):a morphological terminology and homology

An integumental anatomy for the lycaenid butterfly Glaucopsyche lygdamus is presented. Comparisons with other lepidopteran taxa are made to rectify the homology of parts and contrast anatomical divergences within the Lycaenidae. A general terminology based on Snodgrass is given, to replace many of the specialized and often synonymous terms restricted to the Lepidoptera. Many common anatomical svnonyms are also given. Several reinterpretations of the anatomy and homology of various integumental regions are discussed. A previously unreported cuticular anomaly on abdominal tergum 2 of male Polyommatinae (Downey's area) is described. The following new or newly combined terms are used:postgenal-occipital area, postgenal-occipital protuberance, dorsal temporal sulci, postantennal projections, pronotal projection, infraepisternal-basisternal plate, paracoxal-marginopleural sulci, dorsal epimeral sulci, ventral epimeral sulci, secondary coxal sulci, ventral subcostal-radial process, lateral secondary sclerite and Downey's area.     

Linkage of Pgm-3 in the house mouse and homologies of three phosphoglucomutase loci in mouse and man

The discovery of a third phosphoglucomutase locus (Pgm-3) in the house mouse is reported. Three alleles are recognized on the basis of differences in electrophoretic mobility and enzymatic activity. Pgm-3 ^a (fast mobility and high activity) is present in inbred strain C57BL/10J and 24 other strains; Pgm-3 ^b (slow mobility and high activity) is present in LP/Pas and six other strains; and Pgm-3 ^c (no detectable activity in any tissue tested) is present in strain DBA/2J and 14 other strains. Seventy-four recombinant inbred strains derived from progenitors that differed at Pgm-3 were used to study genic linkage. Pgm-3 is on chromosome 9 and is linked to Sep-1, d, Mod-1, and Ltw-3. Gene order and recombination frequencies are estimated as d 3.8±1.8% Pgm-3 2.3±1.2% Mod-1. Substrate specificities and cofactor requirements show that mouse Pgm-1 is homologous with human Pgm-2, mouse Pgm-2 with human Pgm-1, and mouse Pgm-3 with human Pgm-3.This research was supported in part by NIH Research Grant GM18684 from the National Institute of General Medical Sciences to B.A.T. and by grants from NIH A105531-02 and the Volkswagon Foundation to Jan Klein. J.H.N. was a recipient of a Fellowship from the Max-Planck-Gesellschaft, Munich. G.S. and J.K. were supported by funds from the Deutsche Forschungsgemeinschaft.     

DNA-DNA homology studies among strains of Arthrobacter and Brevibacterium

Sixteen named strains of Arthrobacter and two strains of Brevibacterium were investigated by nucleic acid hybridisation. The Arthrobacter strains show homology values ranging between 11 and 55% to the type strain A. globiformis DSM 20124 (ATCC 8010), indicating only a low to moderate relationship. Two strains of A. globiformis, DSM 20124 and DSM 20125, exhibit only poor relationship to one another (30%). Among all the Arthrobacter strains the homology data range between 10 to 70% demonstrating separate status of almost all species. Only A. polychromogenes DSM 20136 was found to be a subspecies of A. oxydans DSM 20119. The type strain of A. citreus, DSM 20133 shows a remarkable lack of homology to four other strains of A. citreus, deposited as ATCC 15170, ATCC 17775, ATCC 21040 and ATCC 21348 (11–13%) which themselves can be separated into two groups according to the homology data (24–31%). Each of the two strains of Brevibacterium share high genetic relatedness with one of these A. citreus groups (71 and 73%, respectively). According to the DNA-DNA homology data, most of the species of Arthrobacter can actually be ranged taxonomically as species.Abbreviation DSM German Collection of Microorganisms, Menzinger Strasse 67, D-8000 Munich 19, FRG - ATCC American Type Culture Collection, Rockville, Maryland, U.S.A. - CCM Czechoslovak Collection of Microorganisms, J. E. Purkyne University, Tr. Obracu miru 10, Brno, CSSR - NCIB National Collection of Industrial Bacteria Aberdeen, Scotland     

Isolation and partial characterization of 3 nontoxic d‐galactose–specific isolectins from seeds of Momordica balsamina

Three isolectins denoted hereforth MBaL‐30, MBaL‐60, and MBaL‐80 were isolated from seeds extract of Momordica balsamina by 30%, 60%, and 80% ammonium sulfate saturations, respectively. The native molecular weights of these lectins, as judged by gel filtration, were 108, 56, and 160 kDa, respectively. On SDS‐PAGE, under reduced condition, 27 kDa band was obtained for all isolectins. The lectins hemagglutinating activities were variably inhibited by d ‐galactose (minimum inhibitory concentrations = 12.5mM, 50mM, and 0.391mM, respectively). MBaL‐30 and ‐60 could agglutinate all human blood types with slight preference for the A and O blood groups, whereas MBaL‐80 did not agglutinate B and AB blood types. The 3 isolectins were purified from crude seeds extract, collectively, in a single step on the affinity matrix Lactamyl‐Seralose 4B; this purified lectin fraction, which contains all isolectins, is termed MBaL. The N‐terminal of MBaL till the 25th amino acid was NLSLSELDFSADTYKSFIKNLRKQL, which shares 88% sequence identity with Momordica charantia lectin type‐2 ribosomal inactivating protein from Momordica charantia and 50% with momordin II from Momordica balsamina . MBaL retained 100% activity at up to 50°C for 30 minutes. MBaL‐30 and MBaL‐60 exhibited maximum activities in the pH range between 4 and 8, while MBaL‐80 was showing maximum activity in the pH range between 3 and 5. Treatment of MBaL‐30 and MBaL‐60 with EDTA completely abolished their hemagglutinating activities. Addition of Zn and Fe ions to the ethylenediaminetetraacetic acid–treated MBaL‐30 and MBaL‐60 lectins did not only regained the loss of activity but also resulted in 200% to 300% increase in activity, respectively. MBaL‐30 and ‐60 agglutinated gram positive Listeria monocytogenes and Staphylococcus aureus, whereas MBaL‐30 could merely agglutinate Escherichia coli . None of these lectins could arrest bacterial growth. Addition of MBaL to cancer cell lines (Gastric cancer cell line (AGS) and Gastric cencer cell line (MKN45), Glioblastoma (ECV‐304), and Human urinary bladder cancer cell line (U87‐MG)) at varying concentrations did not cause statistically significant changes on cell growth and viability.     

Perspectives in PDK1 evolution: Insights from photosynthetic and non-photosynthetic organisms

Protein kinases belonging to the AGC group modulate many diverse cellular processes in all eukaryotes. One important way to regulate AGC kinases is through phosphorylation by the upstream kinase PDK1. PDK1 localization and activity usually depend on interactions with phospholipids, which are mediated by a conserved lipid-binding pleckstrin homology (PH) domain. We recently analyzed putative PDK1 sequences from 17 photosynthetic organisms, finding that PDK1s from vascular and nonvascular species seem to be distinguished by the presence or absence of a PH domain, respectively. The only other reported PDK1 lacking a PH domain is from yeast (Saccharomyces cerevisiae). These observations raise questions about how plant PDK1s and their lipid-binding capabilities have evolved in relation to other eukaryotes, and what this means for PDK1 function. Here we use 100 PDK1 sequences from diverse organisms to discuss possible evolutionary aspects of plant PDK1 structure and lipid binding.     

Comparative innervation of cephalic photophores of the loosejaw dragonfishes (Teleostei: Stomiiformes: Stomiidae): Evidence for parallel evolution of long‐wave bioluminescence

Four genera of the teleost family Stomiidae, the loosejaw dragonfishes, possess accessory cephalic photophores (AOs). Species of three genera, Aristostomias, Malacosteus, and Pachystomias, are capable of producing far‐red, long‐wave emissions (>650nm) from their AOs, a character unique among vertebrates. Aristostomias and Malacosteus posses a single far‐red AO, while Pachystomias possesses anterior and posterior far‐red AOs, each with smaller separate photophores positioned in their ventral margins. The purpose of this study was to establish the primary homology of the loosejaw AOs based on topological similarity of cranial nerve innervation, and subject these homology conjectures to tests of congruence under a phylogenetic hypothesis for the loosejaw dragonfishes. On the basis of whole‐mount, triple‐stained specimens, innervation of the loosejaw AOs is described. The AO of Aristostomias and the anterior AO of Pachystomias are innervated by the profundal ramus of the trigeminal (Tpr), while the far‐red AO of Malacosteus and a small ventral AO of Pachystomias are innervated by the maxillary ramus of the trigeminal (Tmx). The largest far‐red AO of Pachystomias, positioned directly below the orbit, and the short‐wave AO of Photostomias are innervated by a branch of the mandibular ramus of the trigeminal nerve. Conjectures of primary homology drawn from these neuroanatomical similarities were subjected to tests of congruence on a phylogeny of the loosejaws inferred from a reanalysis of a previously published morphological dataset. Optimized for accelerated transformation, the AO innervated by the Tpr appears as a single transformation on the new topology, thereby establishing secondary homology. The AOs innervated by the Tmd found in Pachystomias and Photostomias appear as two transformations in a reconstruction on the new topology, a result that rejects secondary homology of this structure. The secondary homology of AOs innervated by the Tmx found in Malacosteus and Pachystomias is rejected on the same grounds. Two short‐wave cephalic photophores present in all four genera, the suborbital (SO) and the postorbital (PO), positioned in the posteroventral margin of the orbit and directly posterior to the orbit, respectively, are innervated by separate divisions of the Tmd. The primary homologies of the loosejaw PO and SO across loosejaw taxa are proposed on the basis of similar innervation patterns. Because of dissimilar innervation of the loosejaw SO and SO of basal stomiiforms, primary homology of these photophores cannot be established. Because of similar function and position, the PO of all other stomiid taxa is likely homologous with the loosejaw PO. Nonhomology of loosejaw long‐wave photophores is corroborated by previously published histological evidence. The totality of evidence suggests that the only known far‐red bioluminescent system in vertebrates has evolved as many as three times in a closely related group of deep‐sea fishes. J. Morphol., 2010. © 2009 Wiley‐Liss, Inc.