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151. Tenebrio molitor antifreeze protein gene identification and regulation

Author

Wensheng Qin and Virginia K. Walker

Subjects
Transcriptional Activation, Transcription, Genetic, Sequence analysis, TATA box, Molecular Sequence Data, Genes, Insect, Biology, Regulatory Sequences, Nucleic Acid, Genes, Reporter, Antifreeze Proteins, Genetics, Coding region, Animals, Genomic library, Amino Acid Sequence, Luciferases, Promoter Regions, Genetic, Tenebrio, Peptide sequence, Gene, Gene Library, Base Sequence, Promoter, General Medicine, Sequence Analysis, DNA, Molecular biology, TATA Box, Introns, Gene Expression Regulation, Regulatory sequence, Larva, Insect Proteins
Abstract

The yellow mealworm, Tenebrio molitor, is a freeze susceptible, stored product pest. Its winter survival is facilitated by the accumulation of antifreeze proteins (AFPs), encoded by a small gene family. We have now isolated 11 different AFP genomic clones from 3 genomic libraries. All the clones had a single coding sequence, with no evidence of intervening sequences. Three genomic clones were further characterized. All have putative TATA box sequences upstream of the coding regions and multiple potential poly(A) signal sequences downstream of the coding regions. A TmAFP regulatory region, B1037, conferred transcriptional activity when ligated to a luciferase reporter sequence and after transfection into an insect cell line. A 143 bp core promoter including a TATA box sequence was identified. Its promoter activity was increased 4.4 times by inserting an exotic 245 bp intron into the construct, similar to the enhancement of transgenic expression seen in several other systems. The addition of a duplication of the first 120 bp sequence from the 143 bp core promoter decreased promoter activity by half. Although putative hormonal response sequences were identified, none of the five hormones tested enhanced reporter activity. These studies on the mechanisms of AFP transcriptional control are important for the consideration of any transfer of freeze-resistance phenotypes to beneficial hosts.

Published
2005

152. Drosophila dihydrofolate reductase mutations confer antifolate resistance to mammalian cells

Author

Virginia K. Walker, Katerina Neumann, Joslynn G. Affleck, Susan P.C. Cole, and Khalid M. Al-Batayneh

Subjects
Population, Drug Resistance, CHO Cells, Gene mutation, Biology, medicine.disease_cause, chemistry.chemical_compound, Cricetulus, Cricetinae, parasitic diseases, Dihydrofolate reductase, medicine, Animals, Drosophila Proteins, Cloning, Molecular, education, Purine metabolism, Pharmacology, education.field_of_study, Mutation, Chinese hamster ovary cell, Molecular biology, Tetrahydrofolate Dehydrogenase, Methotrexate, chemistry, Antifolate, biology.protein, Folic Acid Antagonists, medicine.drug
Abstract

Antifolates, such as methotrexate, are used to inhibit dihydrofolate reductase (DHFR), an enzyme essential for the biosynthesis of thymidylate, purines, and several amino acids. DHFR sequences corresponding to mutations found in a methotrexate resistant Drosophila S3 cell line (L30Q), a methotrexate resistant fly population (K31P, Q134K), as well as predicted in silico (L22R) were expressed in Chinese Hamster Ovary (CHO) cells. The L30Q and L22R DHFRs both conferred resistance to methotrexate. L22R DHFR provided approximately 200-fold resistance to methotrexate when compared to wild-type Drosophila DHFR allowing CHO(L22R) cells to divide in 10 microM methotrexate, a level of resistance not previously observed in any mammalian system. Constructs using this substitution in combination with other Drosophila DHFR specific residues would make excellent candidates for gene therapy and genetic markers in the treatment of certain human disorders.

Published
2005

153. New simulation model of multicomponent crystal growth and inhibition

Author

Virginia K. Walker, Michael J. Kuiper, Zongchao Jia, and Brent Wathen

Subjects
Crystallography, Chemistry, Protein Conformation, Organic Chemistry, Monte Carlo method, Ice, Crystal system, Crystal growth, General Chemistry, Crystal structure, Catalysis, Crystal, Structure-Activity Relationship, Models, Chemical, Antifreeze protein, Computational chemistry, Ab initio quantum chemistry methods, Chemical physics, Antifreeze Proteins, Molecule, Animals, Computer Simulation, Crystallization
Abstract

We review a novel computational model for the study of crystal structures both on their own and in conjunction with inhibitor molecules. The model advances existing Monte Carlo (MC) simulation techniques by extending them from modeling 3D crystal surface patches to modeling entire 3D crystals, and by including the use of “complex” multicomponent molecules within the simulations. These advances makes it possible to incorporate the 3D shape and non-uniform surface properties of inhibitors into simulations, and to study what effect these inhibitor properties have on the growth of whole crystals containing up to tens of millions of molecules. The application of this extended MC model to the study of antifreeze proteins (AFPs) and their effects on ice formation is reported, including the success of the technique in achieving AFP-induced ice-growth inhibition with concurrent changes to ice morphology that mimic experimental results. Simulations of ice-growth inhibition suggest that the degree of inhibition afforded by an AFP is a function of its ice-binding position relative to the underlying anisotropic growth pattern of ice. This extended MC technique is applicable to other crystal and crystal–inhibitor systems, including more complex crystal systems such as clathrates.

Published
2004

154. Hyperactive spruce budworm antifreeze protein expression in transgenic Drosophila does not confer cold shock tolerance

Author

Virginia K. Walker and Michael G. Tyshenko

Subjects
Signal peptide, Transgene, Genes, Insect, Moths, General Biochemistry, Genetics and Molecular Biology, Animals, Genetically Modified, Cryoprotective Agents, Transformation, Genetic, Antifreeze protein, Antifreeze Proteins, Hemolymph, Botany, Freezing, Animals, Gene, biology, Base Sequence, fungi, General Medicine, DNA, biology.organism_classification, digestive system diseases, Recombinant Proteins, Cell biology, Choristoneura fumiferana, Transformation (genetics), Drosophila melanogaster, Insect Proteins, General Agricultural and Biological Sciences
Abstract

Drosophila melanogaster , a freeze intolerant and cold shock sensitive insect, was transformed with the hyperactive insect antifreeze protein gene (AFP) from the spruce budworm, Choristoneura fumiferana . Transformation P-element constructs (pCasper) were made with CfAFP 337 isoform DNA using a strong constitutive promoter, Actin 5c. This is the first report of insect AFP used to transform another insect. Properly folded active insect AFP was only detected when signal sequences were used to target proteins to the endoplasmic reticulum for secretion into the hemolymph. The 18 residue Drosophila binding protein signal sequence (BiP) constructs resulted in transformed fly lines with significantly higher AFP expression in hemolymph than when the native C. fumiferana AFP signal sequence was used. The resultant transgene fly lines have the highest levels of thermal hysteresis, 0.8 °C, seen for any engineered Drosophila . Despite the high level of expression, even higher than some overwintering fish with natural levels of endogenous AFP, the transformants did not display any cold shock resistance compared to controls or low AFP expressing lines. These results indicate that insect AFP alone cannot protect Drosophila from cold shock and may not be useful for Drosophila cryopreservation.

Published
2003

155. Cloning and characterization of a member of the Hsp70 gene family from Locusta migratoria, a highly thermotolerant insect

Author

Wensheng, Qin, Michael G, Tyshenko, Bernhard S, Wu, Virginia K, Walker, and R Meldrum, Robertson

Subjects
Hot Temperature, Base Sequence, Molecular Sequence Data, Animals, Female, HSP70 Heat-Shock Proteins, Amino Acid Sequence, Grasshoppers, RNA, Messenger, Sequence Analysis, DNA, Original Articles, Introns
Abstract

A complementary deoxyribonucleic acid (cDNA) and the corresponding gene segment encoding a member of the 70-kDa heat shock protein (Hsp70) family have been cloned and sequenced from Locusta migratoria, the African migratory locust. These animals are noted for their thermotolerance, which can exceed temperatures of 50 degrees C. Conceptually translated, the sequence shows a 654-residue protein with theoretical molecular weight of 71.4 kDa, which more closely resembles the mammalian Hsp70 (84-85% similarity) than Hsp70 from other insects, with approximately 75% similarity to the sequence from the fruit fly. Comparisons of cDNA and genomic sequences show that the gene contains 2 introns, a 245-bp intron located in the 5' untranslated region and a 91-bp intron in the coding region. Transcript abundance, as estimated by Northern blot analysis and reverse transcription-polymerase chain reaction, shows that heat shock treatment (45 degrees C for 3 hours) does not elevate hsp70 messenger ribonucleic acid levels in fat bodies or in neural tissues. Immunological assays of Hsp70 show that the protein is constitutively expressed, with a modest, approximately 2-fold induction after a 3-hour heat shock in fat body preparations. Although this sequence could be an hsc70 rather than an hsp70, it was the only cDNA isolated from heat-shocked tissue. Whatever the formal designation, such modest induction and constitutive expression may be ideally suited as an adaptation to the locust's chronic exposure to heat shock temperatures and the consequent demand for chaperone proteins.

Published
2003

156. A new model for simulating 3-d crystal growth and its application to the study of antifreeze proteins

Author

Brent Wathen, Michael J. Kuiper, Virginia K. Walker, and Zongchao Jia

Subjects
Work (thermodynamics), Chemistry, Ice, Crystal growth, General Chemistry, Orders of magnitude (numbers), Biochemistry, Molecular mechanics, Catalysis, law.invention, Crystal, Crystallography, Colloid and Surface Chemistry, Models, Chemical, law, Antifreeze protein, Antifreeze Proteins, Molecule, Computer Simulation, Crystallization, Biological system
Abstract

A novel computational technique for modeling crystal formation has been developed that combines three-dimensional (3-D) molecular representation and detailed energetics calculations of molecular mechanics techniques with the less-sophisticated probabilistic approach used by statistical techniques to study systems containing millions of molecules undergoing billions of interactions. Because our model incorporates both the structure of and the interaction energies between participating molecules, it enables the 3-D shape and surface properties of these molecules to directly affect crystal formation. This increase in model complexity has been achieved while simultaneously increasing the number of molecules in simulations by several orders of magnitude over previous statistical models. We have applied this technique to study the inhibitory effects of antifreeze proteins (AFPs) on ice-crystal formation. Modeling involving both fish and insect AFPs has produced results consistent with experimental observations, including the replication of ice-etching patterns, ice-growth inhibition, and specific AFP-induced ice morphologies. Our work suggests that the degree of AFP activity results more from AFP ice-binding orientation than from AFP ice-binding strength. This technique could readily be adapted to study other crystal and crystal inhibitor systems, or to study other noncrystal systems that exhibit regularity in the structuring of their component molecules, such as those associated with the new nanotechnologies.

Published
2003

157. Structure and function of antifreeze proteins

Author

Virginia K. Walker, Peter L. Davies, Michael J. Kuiper, and Jason Baardsnes

Subjects
Insecta, Protein Conformation, Mutagenesis (molecular biology technique), Biology, General Biochemistry, Genetics and Molecular Biology, Evolution, Molecular, symbols.namesake, Protein structure, Antifreeze protein, Antifreeze Proteins, Animals, Binding site, Hydrogen bond, Ice, Fishes, Hydrogen Bonding, Biochemistry, Ice binding, Helix, symbols, Biophysics, Insect Proteins, van der Waals force, General Agricultural and Biological Sciences, human activities, Research Article
Abstract

High–resolution three–dimensional structures are now available for four of seven non–homologous fish and insect antifreeze proteins (AFPs). For each of these structures, the ice–binding site of the AFP has been defined by site–directed mutagenesis, and ice etching has indicated that the ice surface is bound by the AFP. A comparison of these extremely diverse ice–binding proteins shows that they have the following attributes in common. The binding sites are relatively flat and engage a substantial proportion of the protein's surface area in ice binding. They are also somewhat hydrophobic—more so than that portion of the protein exposed to the solvent. Surface–surface complementarity appears to be the key to tight binding in which the contribution of hydrogen bonding seems to be secondary to van der Waals contacts.

Published
2002

158. A beta-helical antifreeze protein isoform with increased activity. Structural and functional insights

Author

Eeva K, Leinala, Peter L, Davies, Daniel, Doucet, Michael G, Tyshenko, Virginia K, Walker, and Zongchao, Jia

Subjects
Models, Molecular, Threonine, Protein Folding, DNA, Complementary, Insecta, Dose-Response Relationship, Drug, Crystallography, X-Ray, Protein Structure, Secondary, Structure-Activity Relationship, Antifreeze Proteins, Escherichia coli, Animals, Insect Proteins, Protein Isoforms, Protein Binding
Abstract

The insect spruce budworm (Choristoneura fumiferana)(Cf) produces a number of isoforms of its highly active antifreeze protein (CfAFP). Although most of the CfAFP isoforms are in the 9-kDa range, isoforms containing a 30- or 31-amino acid insertion have also been identified. Here we describe the functional and structural analysis of a selected long isoform, CfAFP-501. X-ray crystal structure determination reveals that the 31-amino acid insertion found in CfAFP-501 forms two additional loops within its highly regular beta-helical structure. This effectively extends the area of the two-dimensional Thr array and ice-binding surface of the protein. The larger isoform has 3 times the thermal hysteresis activity of the 9-kDa CfAFP-337. As well, a deletion of the 31-amino acid insertion within CfAFP-501 to form CfAFP-501-Delta-2-loop, results in a protein with reduced activity similar to the shorter CfAFP isoforms. Thus, the enhanced antifreeze activity of CfAFP-501 is directly correlated to the length of its beta-helical structure and hence the size of its ice-binding face.

Published
2002

159. A family of expressed antifreeze protein genes from the moth, Choristoneura fumiferana

Author

Daniel, Doucet, Michael G, Tyshenko, Peter L, Davies, and Virginia K, Walker

Subjects
Blotting, Southern, DNA, Complementary, Antifreeze Proteins, Molecular Sequence Data, Animals, Protein Isoforms, Amino Acid Sequence, Moths, Blotting, Northern
Abstract

The freeze-intolerant insect, Choristoneura fumiferana (spruce budworm), produces multiple antifreeze protein (AFP) isoforms for protection during the overwintering stage. We now report the cloning of AFP genes from insects; Afp-Lu1 encodes a approximately 9-kDa AFP isoform, and Afp-Iu1 encodes a approximately 12-kDa AFP isoform. Both CfAFP genes have similar structures with a single 3- to 3.6-kb intron interrupting the coding region. The second exon of an additional CfAFP gene, 2.7a, encoding a new approximately 9-kDa isoform, was found 3.7 kb upstream of Afp-Lu1 and demonstrates that some AFP family members are linked in tandem. This gene appears to encode an AFP with 68-76% identity to previously isolated CfAFPs. With its eight Cys residues necessary for disulfide bonding and five perfectly conserved 'Thr button' (Thr-Xaa-Thr) ice-binding motifs, it can be modeled as a functional AFP. Southern blot analysis shows that there are approximately 17 genes in this AFP family, with each of the isoforms represented by two to five gene copies. Transcript accumulation from Afp-Lu1 and Afp-Iu1 (or closely related genes) was maximal during the overwintering stage, while 2.7a transcripts were only detected in first instars, larvae that are normally found only in the summer. Contrary to expectations, this differential expression demonstrates that CfAFP gene family transcripts are primarily regulated during development, rather than by seasonally low temperatures.

Published
2002

160. A novel intron site in the triosephosphate isomerase gene from the mosquito Culex tarsalis

Author

Claus Tittiger, Steve Whyard, and Virginia K. Walker

Subjects
RNA Splicing, Molecular Sequence Data, Biology, Exon shuffling, Polymerase Chain Reaction, Genome, Triosephosphate isomerase, Exon, Molecular evolution, Consensus Sequence, parasitic diseases, Animals, Amino Acid Sequence, Gene, Genetics, Binding Sites, Multidisciplinary, Base Sequence, Sequence Homology, Amino Acid, Intron, DNA, Exons, Oligonucleotides, Antisense, Introns, Blotting, Southern, Culex, Function (biology), Triose-Phosphate Isomerase
Abstract

THE origin and function of introns in eukaryotic genes has provoked considerable debate since their discovery in 1977. Central to this issue are studies on the highly conserved enzyme, triosephosphate isomerase (TPI, EC 5.3.1.1). The 'introns early' argument suggests that introns are as old as the genes themselves and that the apparent correlation of many of the intron sites in plant, animal and fungal TPI genes with the boundaries of modules1 is evidence of the assembly of ancient proteins by exon shuffling2–4. In contrast, the 'introns late' view holds that ancient genomes contained few if any introns; introns were inserted into pre-existing genes during the last billion years5,6. We have found that the TPI gene from the mosquito, Culex tarsalis, contains an intron in a unique position that was predicted by W. Gilbert2 and the exon shuffling hypothesis.

Published
1993

161. Juvenile Hormone-Receptor Complex Acts on Mcm4 and Mcm7 to Promote Polyploidy and Vitellogenesis in the Migratory Locust

Author

Shutang Zhou, Zhongxia Wu, Virginia K. Walker, Zhiming Wang, Wei Guo, Feng Jiang, Jiasheng Song, and Shun Deng

Subjects
Cancer Research, Receptor complex, Developmental Signaling, Gene Expression, Biochemistry, Invertebrate Genetics, RNA interference, Oogenesis, Cell Signaling, Endocrine Signaling, Molecular Cell Biology, Genetics (clinical), media_common, Genetics, biology, Vitellogenesis, Nuclear Proteins, Cell biology, Juvenile Hormones, Larva, Epigenetics, Receptor Physiology, Research Article, Signal Transduction, Cell Physiology, lcsh:QH426-470, media_common.quotation_subject, Double stranded RNA, Grasshoppers, DNA replication, Polyploidy, DNA-binding proteins, Animals, Humans, Gene Regulation, RNA, Messenger, Metamorphosis, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Transactivation, Biology and life sciences, DNA synthesis, Proteins, DNA, Cell Biology, Migratory locust, Methoprene, Minichromosome Maintenance Complex Component 7, biology.organism_classification, Hormones, Minichromosome Maintenance Complex Component 4, lcsh:Genetics, Juvenile hormone, Oocytes, RNA, Transcriptional Signaling, Nuclear Receptor Signaling, Corpus allatum, Animal Genetics, Departures from Diploidy, Transcription Factors, Developmental Biology
Abstract

Juvenile hormone (JH), a sesquiterpenoid produced by the corpora allata, coordinates insect growth, metamorphosis, and reproduction. While JH action for the repression of larval metamorphosis has been well studied, the molecular basis of JH in promoting adult reproduction has not been fully elucidated. Methoprene-tolerant (Met), the JH receptor, has been recently shown to mediate JH action during metamorphosis as well as in vitellogenesis, but again, the precise mechanism underlying the latter has been lacking. We have now demonstrated using Met RNAi to phenocopy a JH-deprived condition in migratory locusts, that JH stimulates DNA replication and increases ploidy in preparation for vitellogenesis. Mcm4 and Mcm7, two genes in the DNA replication pathway were expressed in the presence of JH and Met. Depletion of Mcm4 or Mcm7 inhibited de novo DNA synthesis and polyploidization, and resulted in the substantial reduction of vitellogenin mRNA levels as well as severely impaired oocyte maturation and ovarian growth. By using luciferase reporter and electrophoretic mobility shift assays, we have shown that Met directly regulates the transcription of Mcm4 and Mcm7 by binding to upstream consensus sequences with E-box or E-box-like motifs. Our work suggests that the JH-receptor complex acts on Mcm4 and Mcm7 to regulate DNA replication and polyploidy for vitellogenesis and oocyte maturation., Author Summary Vitellogenesis, a hormonally-regulated process for the synthesis of yolk proteins by the fat body or liver and their sequestration in developing oocytes, takes place in all oviparous animals except mammals. Polyploidy has also been implicated in hormone-regulated development and reproduction. Although juvenile hormone (JH) is known to regulate polyploidy in insect models and also plays a pivotal role in stimulating insect vitellogenesis, the molecular mechanisms remain poorly understood. In the migratory locust, Locusta migratoria, vitellogenesis is dependent on JH, and JH stimulates DNA replication and increases ploidy in the fat body. Here, we show that a JH-receptor complex comprised of Methoprene-tolerant (Met) and a steroid receptor co-activator activates the transcription of two mini-chromosome maintenance (Mcm) genes, Mcm4 and Mcm7. Knockdown of Mcm4 or Mcm7 via RNAi can phenocopy JH-deprivation and Met-depletion, resulting in reduced ploidy, blocked vitellogenin (Vg) expression, as well as arrested oocyte maturation and ovarian growth. This study provides evidence that JH acts through its receptor on the Mcm machinery to replicate the genome of fat body cells in preparation for the massive synthesis of Vg and possibly other proteins required for oocyte maturation and egg production.

Published
2014

162. The impact of engineered cobalt, iron, nickel and silver nanoparticles on soil bacterial diversity under field conditions

Author

Daniel P Collins, Virginia K. Walker, Vishal Shah, and Shreya Shah

Subjects
inorganic chemicals, biology, Renewable Energy, Sustainability and the Environment, Chemistry, Ecology, Precipitation (chemistry), Public Health, Environmental and Occupational Health, chemistry.chemical_element, Lysobacter, biology.organism_classification, Sphingomonas, Silver nanoparticle, Metal, Nickel, visual_art, Environmental chemistry, visual_art.visual_art_medium, Cobalt, Flavobacterium, General Environmental Science
Abstract

Our understanding of how engineered nanoparticles (NPs) migrate through soil and affect microbial communities is scarce. In the current study we examined how metal NPs, including those from the iron triad (iron, cobalt and nickel), moved through pots of soil maintained under winter field conditions for 50 days, when mesophilic bacteria may not be dividing. Based on total metal analysis, cobalt and nickel were localized in the top layer of soil, even after exposure to high precipitation and freeze–thaw cycles. In contrast, a bimodal distribution of silver was observed. Due to high endogenous levels of iron, the migration pattern of these NPs could not be determined. Pyrosequence analysis of the bacterial communities revealed that there was no significant engineered NP-mediated decline in microbial richness. However, analysis of individual genera showed that Sphingomonas and Lysobacter were represented by fewer sequences in horizons containing elevated metal levels whereas there was an increase in the numbers of Flavobacterium and Niastella. Collectively, the results indicate that along with the differential migration behavior of NPs in the soil matrix, their impact on soil bacterial diversity appears to be dependent on environmental parameters.

Published
2014

163. Heat shock-induced thermoprotection of action potentials in the locust flight system

Author

R. Meldrum Robertson, Bernhard S. Wu, and Virginia K. Walker

Subjects
Male, Hot Temperature, Action Potentials, Grasshoppers, Stimulus (physiology), In Vitro Techniques, Neuronal action potential, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Biological neural network, Neuropil, medicine, Animals, Tetraethylammonium, biology, Electromyography, General Neuroscience, Muscles, Depolarization, Anatomy, biology.organism_classification, Electric Stimulation, medicine.anatomical_structure, chemistry, Flight, Animal, Biophysics, Locust, Intracellular
Abstract

There is increasing evidence that heat shock (HS) has long-term effects on electrophysio- logical properties of neurons and synapses. Prior HS protects neural circuitry from a subsequent heat stress but little is known about the mechanisms that mediate this plasticity and induce thermotolerance. Exposure of Locusta migratoria to HS conditions of 45°C for 3 h results in thermotolerance to hitherto lethal tempera- tures. Locust flight motor patterns were recorded during tethered flight at room temperature, before and after HS. In addition, intracellular action potentials (APs) were recorded from control and HS motoneurons in a semi-intact preparation during a heat stress. HS did not alter the timing of representative depressor or elevator muscle activity, nor did it affect the ability of the locust to generate a steering motor pattern in response to a stimulus. However, HS did increase the duration of APs recorded from neuropil segments of depressor motoneu- rons. Increases in AP duration were associated with protection of AP generation against failure at subse- quent elevated temperatures. Failure of AP generation at high temperatures was preceded by a concomitant burst of APs and depolarization of the membrane. The protective effects of HS were mimicked by pharmaco- logical blockade of IK 1 with tetraethylammonium (TEA). Taken together, these findings are consistent with a hypothesis that HS protects neuronal survival and function via K 1 channel modulation. © 2001 John

Published
2001

164. Cold tolerance and proline metabolic gene expression in Drosophila melanogaster

Author

Cheng-Ping Chen, Virginia K. Walker, and Stephen R. Misener

Subjects
biology, Proline oxidase, Physiology, Period (gene), fungi, Reductase, biology.organism_classification, Biochemistry, Insect Science, Gene expression, Protein biosynthesis, Proline, Drosophila melanogaster, Cold hardening
Abstract

Treatment of Drosophila melanogaster adults with an inhibitor of protein synthesis led to a decrease in intrinsic cold-shock tolerance, but no difference in the rapid cold hardening response, which is apparent only if a period at 4 degrees C precedes the cold stress. Increases in energy reserves, including proline, were found in lines of flies selected for resistance to chilling injury. Since an increase in proline levels has been associated with overwintering in insects, and for salt and cold tolerance in plants, an RNase protection assay was developed to assess changes in transcript abundance for two genes encoding enzymes important for proline metabolism, pyrroline 5-carboxylate reductase and proline oxidase. The mRNA levels did not change in response to low temperature, but the high level of pyrroline 5-carboxylate reductase transcript is consistent with the interpretation that a large proline pool is important for Drosophila metabolism and survival during cold stress.

Published
2001

165. Surviving winter with antifreeze proteins

Author

Brian D. Sykes, Michael J. Kuiper, Daniel Doucet, Virginia K. Walker, Peter L. Davies, Zongchao Jia, Steffen P. Graether, Yih-Cherng Liou, Laurie A. Graham, and Michael G. Tyshenko

Subjects
Mealworm, Biochemistry, Cryoprotectant, Antifreeze protein, fungi, Botany, Hemolymph, Insect winter ecology, Biology, Supercooling, biology.organism_classification, Overwintering, Freezing point
Abstract

Publisher Summary The rigors of cold climates have resulted in the evolution of unique, hyperactive antifreeze proteins that bind to microscopic ice crystals. Some insects, those that are freeze tolerant, upregulate metabolic pathways for the production of cryoprotectants, such as sugars or polyhydroxy alcohols. Freeze-tolerant insects raise their supercooling point, with some producing ice nucleators to ensure freezing at high subzero temperatures, and they may also accumulate other macromolecules, such as enzymes for anaerobic glycolysis. Most studied overwintering insects, have an alternative strategy for winter survival and are freeze susceptible. To avoid freezing, these insects decrease their supercooling points. They synthesize low molecular weight cryoprotectants to lower the freezing point of their hemolymph. To avoid inoculating ice, they seal themselves in cocoons or hibemacula and eliminate materials that could act as ice nucleators. Some freeze-susceptible insects may also synthesize thermal hysteresis proteins (THPs), which depress the hemolymph freezing point, relative to the melting point, by inhibiting the growth of ice until the nonequilibrium freezing point is reached. Although thermal hysteresis (TH) activity was originally described in insects, the subsequent discovery and extensive characterization of proteins with similar properties from fish, termed antifreeze proteins (AFPs), has prescribed a name change on the insect proteins. Two freeze-susceptible species, spruce budworm and mealworm beetles represent promising candidates for the purification of AFPs, because both can be reared under laboratory conditions.

Published
2001

166. Chapter 2 Drosophila as a model organism for the transgenic expression of antifreeze proteins

Author

Michael G. Tyshenko, Derrick E. Rancourt, Virginia K. Walker, Peter L. Davies, and Bernard P. Duncker

Subjects
Genetics, Mutation, biology, ved/biology, Transgene, fungi, ved/biology.organism_classification_rank.species, biology.organism_classification, medicine.disease_cause, Phenotype, Regulatory sequence, medicine, Drosophila melanogaster, Model organism, Drosophila, Gene
Abstract

Publisher Summary The transfer of antifreeze proteins (AFPs) to even a generally beneficial insect, such as Drosophila melanogaster requires that reasonable precautions should be established for biological containment. Particular care should be taken to avoid releasing transgenic insects bearing genes, which could provide a selective advantage to their host. This chapter discusses disabled Drosophila host strains; recipient strains are unable to fly due to the inclusion of the dominant mutation for flightlessness. Even if the transgenic flies “walked” out of the laboratory, none of their progeny from potential crosses with wild populations would be able to fly because heterozygotes also have a flightless phenotype. The transfer and expression of any heterologous gene to an evolutionary advanced organism is not a trivial undertaking. The efforts to transfer AFP genes to flies have demonstrated several important considerations, including the prudent selection of the target AFP gene, the choice of promoter, the inclusion of intronic and other regulatory sequences, copy number, post-translational processing, effective containment of the host, and an appreciation of the ecology of both gene donor and recipient.

Published
2001

167. Extraordinarily high density of unrelated genes showing overlapping and intraintronic transcription units

Author

Virginia K. Walker and Stephen R. Misener

Subjects
Transcription, Genetic, Molecular Sequence Data, Biophysics, Biochemistry, Structural Biology, Transcription (biology), Complementary DNA, Gene cluster, Genetics, Genes, Overlapping, Coding region, Animals, Amino Acid Sequence, Cloning, Molecular, Promoter Regions, Genetic, Gene, 3' Untranslated Regions, Genome, biology, Sequence Homology, Amino Acid, Intron, biology.organism_classification, Introns, Complementation, Drosophila melanogaster, Multigene Family, Pyrroline Carboxylate Reductases
Abstract

The cloning of pyrroline 5-carboxylate reductase from Drosophila melanogaster was accomplished by cDNA complementation of an Escherichia coli proline auxotroph. The corresponding P5cr gene is tightly clustered with three other expressed coding regions. A bidirectional promoter, an overlapping 3'UTR and an intraintronic sequence may all be found in only 4.3 kb, making this the most densely clustered region of unrelated genes in any eukaryote.

Published
2000

168. Cloning and characterization of an ecdysone receptor cDNA from Locusta migratoria

Author

Virginia K. Walker, David S Saleh, Jianzhong Zhang, and G.R. Wyatt

Subjects
Ecdysone, Receptors, Steroid, animal structures, DNA, Complementary, Molecular Sequence Data, Grasshoppers, Biochemistry, chemistry.chemical_compound, Endocrinology, Complementary DNA, Animals, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Ecdysteroid, biology, Base Sequence, fungi, Migratory locust, biology.organism_classification, Molecular biology, Nuclear receptor, chemistry, Juvenile hormone, Ecdysone receptor, Sequence Alignment, Sequence Analysis, hormones, hormone substitutes, and hormone antagonists, Locust
Abstract

To facilitate studies on the hormonal control of development in the migratory locust, Locusta migratoria, we have undertaken the cloning of cDNAs for nuclear hormone receptors. Sequences obtained by polymerase chain reaction (PCR) showed homology with receptor family members including the ecdysteroid receptor (EcR). A cDNA clone corresponding to the EcR fragment includes an open reading frame of 1622 nucleotides, predicting a 59 kDa protein showing clear homology with EcRs and distinct from other classes of nuclear receptors. Northern analysis revealed a major transcript of 9.2 kb. In fifth instar fat body, the transcript was most abundant at the end of the instar when ecdysone titres are highest. There was no obvious evidence of EcR regulation by a juvenile hormone analog. Although its role in development may be similar, the locust ecdysone receptor (LmEcR) is divergent from EcRs characterized from insects belonging to the dipteran and lepidopteran orders, presumably reflecting the more ancestral sequence in the relatively primitive locust.

Published
1998

169. Hyperactive antifreeze protein from beetles

Author

Yih-Cherng Liou, Virginia K. Walker, Peter L. Davies, and Laurie A. Graham

Subjects
Mealworm, Molecular Sequence Data, medicine.disease_cause, Antifreeze protein, Antifreeze Proteins, Freezing, medicine, Escherichia coli, Animals, Amino Acid Sequence, Threonine, Cloning, Molecular, Tenebrio, Peptide sequence, Chromatography, High Pressure Liquid, Glycoproteins, Multidisciplinary, biology, Molecular mass, Chemistry, biology.organism_classification, Ice binding, Biochemistry, Antifreeze, Insect Proteins
Abstract

We have purified a thermal hysteresis (antifreeze) protein, with up to 100 times the specific activity of fish antifreeze proteins, from the common yellow mealworm beetle, Tenebrio molitor. It is a threonine- and cysteine-rich protein, of relative molecular mass 8,400, composed largely of 12-amino-acid repeats. We estimate that a concentration of roughly 1 mg ml−1 of this protein can account for the 5.5 °C of thermal hysteresis found in Tenebrio larvae (Fig. 1).

Published
1997

170. Cloning and baculovirus expression of a desiccation stress gene from the beetle, Tenebrio molitor

Author

William G. Bendena, Laurie A. Graham, and Virginia K. Walker

Subjects
Signal peptide, Mealworm, DNA, Complementary, Genetic Vectors, Molecular Sequence Data, Gene Expression, Genes, Insect, Spodoptera, Biochemistry, Cell Line, Protein sequencing, Complementary DNA, Hemolymph, Animals, Amino Acid Sequence, Cloning, Molecular, Desiccation, Tenebrio, Molecular Biology, Heat-Shock Proteins, chemistry.chemical_classification, biology, Base Sequence, biology.organism_classification, Molecular biology, Nucleopolyhedroviruses, Amino acid, chemistry, Insect Science, Nucleic acid, Insect Proteins, Sequence Analysis
Abstract

The cDNA sequence encoding a novel desiccation stress protein (dsp28) found in the hemolymph of the common yellow mealworm beetle, Tenebrio molitor, has been determined. The sequence encodes a 225 amino acid protein containing a 20 amino acid signal peptide. Dsp28 shows no significant similarity to any known nucleic acid or protein sequence. Levels of dsp28 mRNA were found to increase approx 5-fold following desiccation. Dsp28 cDNA has been cloned into a baculovirus expression vector and the expressed protein was compared to native dsp28. Both dsp28 expressed by recombinant baculovirus and native dsp28 are glycosylated and N-terminally processed. Although dsp28 is induced by cold in addition to desiccation stress, it does not contribute to the freezing point depression (thermal hysteresis) observed in Tenebrio hemolymph.

Published
1996

171. Expression of a cystine-rich fish antifreeze in transgenic Drosophila melanogaster

Author

Virginia K. Walker, Peter L. Davies, Hermans Ja, and Bernard P. Duncker

Subjects
Signal peptide, Male, Molecular Sequence Data, Biology, Antifreeze Proteins, Type II, law.invention, Animals, Genetically Modified, law, Antifreeze protein, Hemolymph, Gene expression, Genetics, Melanogaster, Animals, Amino Acid Sequence, Protein Precursors, Base Sequence, digestive, oral, and skin physiology, Ice, biology.organism_classification, digestive system diseases, Drosophila melanogaster, Biochemistry, Antifreeze, embryonic structures, Recombinant DNA, Animal Science and Zoology, Female, Carrier Proteins, Crystallization, Agronomy and Crop Science, Biotechnology
Abstract

We have used Drosophila melanogaster as a model system for the transgenic expression of cystine-rich Type II antifreeze protein (AFP) from sea raven. This protein was synthesized and secreted into fly haemolymph where it migrated as a larger species (16 kDa) than the mature form of the protein (14 kDa) as judged by immunoblotting. Drosophila-produced Type II AFP demonstrated antifreeze activity both in terms of thermal hysteresis (0.13 degree C) and inhibition of ice recrystallization. Recombinant AFP was purified and N-terminal sequencing revealed a 17 aa extension that began at the predicted signal peptide cleavage point. The expression of all three AFP types in transgenic Drosophila has now been achieved. We conclude that the globular Type II and Type III AFPs are better choices for antifreeze transfer to other organisms than is the more widely used linear Type I AFP.

Published
1996

172. Antifreeze protein does not confer cold tolerance to transgenic Drosophila melanogaster

Author

Bernard P. Duncker, Virginia K. Walker, Peter L. Davies, and Cheng-Ping Chen

Subjects
Male, Xanthine Dehydrogenase, Transgene, Recombinant Fusion Proteins, Marker gene, General Biochemistry, Genetics and Molecular Biology, Animals, Genetically Modified, Body Water, Antifreeze protein, Drosophilidae, Antifreeze Proteins, Hemolymph, Animals, Promoter Regions, Genetic, Glycoproteins, Sex Characteristics, biology, Calorimetry, Differential Scanning, Genetic transfer, General Medicine, Anatomy, biology.organism_classification, Cell biology, Perciformes, Cold Temperature, Drosophila melanogaster, Xanthine dehydrogenase, Gene Expression Regulation, Female, General Agricultural and Biological Sciences, Crystallization
Abstract

Fish antifreeze proteins (AFPs) have been reported by some researchers to prolong the viability of tissues, organs, and embryos under hypothermic conditions, while others have observed no such effect or even AFP-mediated cryotoxicity. We examined the influence of Type III AFP from Atlantic wolffish on cold tolerance in a whole animal model system, transgenic Drosophila. The activity of the AFP, transgenically expressed under the transcriptional control of the female-specific yp1 and yp2 promoters and secreted into fly hemolymph, was confirmed through thermal hysteresis and differential scanning calorimetry measurements as well as through observations of ice crystal morphology. In cold exposure trials, at 0 degrees C and at -7 degrees C, transgenic adult flies of both sexes exhibited greater survival than nontransgenic controls even though the antifreeze was only produced in females. We attribute these observations to the expression of the xanthine dehydrogenase marker gene used to identify transgenics, rather than the production of AFP. Type III AFP therefore appears unable to enhance survival of adult Drosophila under hypothermic conditions.

Published
1995

173. Seven newly discovered intron positions in the triose-phosphate isomerase gene: evidence for the introns-late theory

Author

J D-Jafari, Virginia K. Walker, Jeffrey D. Palmer, John M. Logsdon, C Dixon, and Michael G. Tyshenko

Subjects
Insecta, Protein Conformation, Molecular Sequence Data, Exon shuffling, Triosephosphate isomerase, Exon, Phylogenetics, parasitic diseases, Animals, Amino Acid Sequence, Caenorhabditis elegans, Peptide sequence, Gene, Phylogeny, Genetics, Multidisciplinary, biology, Sequence Homology, Amino Acid, Basidiomycota, Intron, Exons, biology.organism_classification, Introns, Triose-Phosphate Isomerase, Research Article
Abstract

The gene encoding the glycolytic enzyme triose-phosphate isomerase (TPI; EC 5.3.1.1) has been central to the long-standing controversy on the origin and evolutionary significance of spliceosomal introns by virtue of its pivotal support for the introns-early view, or exon theory of genes. Putative correlations between intron positions and TPI protein structure have led to the conjecture that the gene was assembled by exon shuffling, and five TPI intron positions are old by the criterion of being conserved between animals and plants. We have sequenced TPI genes from three diverse eukaryotes--the basidiomycete Coprinus cinereus, the nematode Caenorhabditis elegans, and the insect Heliothis virescens--and have found introns at seven novel positions that disrupt previously recognized gene/protein structure correlations. The set of 21 TPI introns now known is consistent with a random model of intron insertion. Twelve of the 21 TPI introns appear to be of recent origin since each is present in but a single examined species. These results, together with their implication that as more TPI genes are sequenced more intron positions will be found, render TPI untenable as a paradigm for the introns-early theory and, instead, support the introns-late view that spliceosomal introns have been inserted into preexisting genes during eukaryotic evolution.

Published
1995

174. Assessing the Impact of Copper and Zinc Oxide Nanoparticles on Soil: A Field Study

Author

Vishal Shah, Daniel P Collins, Niraj Kumar, Shreya Shah, Todd P. Luxton, and Virginia K. Walker

Subjects
Applied Microbiology, lcsh:Medicine, Metal Nanoparticles, 02 engineering and technology, 010501 environmental sciences, Heavy Metals, 01 natural sciences, Soil, Engineering, X-Ray Diffraction, Nanotechnology, Leaching (agriculture), lcsh:Science, Soil Microbiology, health care economics and organizations, Rhizosphere, Multidisciplinary, Ecology, Soil Ecology, respiratory system, 021001 nanoscience & nanotechnology, Pollution, 6. Clean water, Sphingomonadaceae, Chemistry, Agricultural soil science, Environmental chemistry, Zinc Oxide, 0210 nano-technology, Flavobacteriaceae, Research Article, Hazardous Wastes, inorganic chemicals, Pollutants, Environmental Engineering, Materials Science, education, chemistry.chemical_element, Zinc, Microbiology, Microbial Ecology, Environmental Chemistry, Ecosystem, Biology, Nanomaterials, 0105 earth and related environmental sciences, Ions, Pollutant, lcsh:R, technology, industry, and agriculture, Sequence Analysis, DNA, 15. Life on land, Copper, Microbial population biology, chemistry, 13. Climate action, lcsh:Q
Abstract

It is not known if the annual production of tonnes of industrial nanoparticles (NPs) has the potential to impact terrestrial microbial communities, which are so necessary for ecosystem functioning. Here, we have examined the consequences of adding zero valent copper and zinc oxide NPs to soil in pots that were then maintained under field conditions. The fate of these NPs, as well as changes in the microbial communities, was monitored over 162 days. Both NP types traveled through the soil matrix, albeit at differential rates, with Cu NPs retained in the soil matrix at a higher rate compared to ZnO NPs. Leaching of Cu and Zn ions from the parent NPs was also observed as a function of time. Analysis of microbial communities using culture-dependent and independent methods clearly indicated that Cu and ZnO NPs altered the microbial community structure. In particular, two orders of organisms found in rhizosphere, Flavobacteriales and Sphingomonadales, appeared to be particularly susceptible to the presence of NPs. Together, the migration of NPs through soil matrix and the ability of these potential pollutants to influence the composition of microbial community in this field study, cannot help but raise some environmental concerns.

Published
2012

175. Purification of triosephosphate isomerase and isolation of its gene from the mosquito Culex tarsalis

Author

S Whyard, Claus Tittiger, and Virginia K. Walker

Subjects
Nonsynonymous substitution, Male, Molecular Sequence Data, Genes, Insect, Biology, Biochemistry, Triosephosphate isomerase, Complementary DNA, parasitic diseases, Coding region, Animals, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Gene, Peptide sequence, Genetics, Base Sequence, fungi, Intron, DNA, Molecular biology, Biological Evolution, Culex, Drosophila melanogaster, Insect Science, Female, Synonymous substitution, Triose-Phosphate Isomerase
Abstract

The enzyme triosephosphate isomerase (TPI) was purified to homogeneity from the mosquito Culex tarsalis. Anti-C. tarsalis TPI antibodies cross-reacted with TPIs from other organisms but bands on western blots were most intense with proteins from closely related Dipterans. Using a degenerate primer corresponding to the amino-terminal sequence of the protein in a polymerase chain reaction (PCR), a cDNA corresponding to the TPI gene (Tpi) was isolated and sequenced. Subsequently, a genomic sequence including 305 bp to the 5'-end of the coding sequence was obtained. Comparison of C. tarsalis Tpi to that of Drosophila melanogaster revealed that although the two genes had little similarity in the intron and 5' flanking sequences, they were highly similar (73% identity) in their coding sequence. The rate of synonymous substitution in insect genes may be slower than that of vertebrates, but the nonsynonymous substitution rate, and hence the rate of TPI evolution, appears to be faster in insects than in vertebrates.

Published
1994

176. Isolation of an esterase conferring insecticide resistance in the mosquito Culex tarsalis

Author

A.E.R. Downe, Steven Whyard, and Virginia K. Walker

Subjects
Male, Piperonyl butoxide, Larva, Strain (chemistry), Biology, Carbaryl, Biochemistry, Esterase, Insecticide Resistance, chemistry.chemical_compound, Carboxylesterase, Culex, chemistry, Malaoxon, Insect Science, Chromatography, Gel, Malathion, Animals, Electrophoresis, Polyacrylamide Gel, Female, Molecular Biology, Carboxylic Ester Hydrolases
Abstract

Malathion resistance in a strain of Culex tarsalis mosquitoes is due primarily to the activity of a malathion carboxylesterase (MCE). The resistant strain was 150 times more resistant to malathion than the susceptible strain and was weakly resistant to malaoxon and carbaryl, but not to any other insecticide tested. The phenotype could be reversed with the carboxylesterase inhibitor triphenylphosphate, but no synergism was observed with either the phosphatase or polysubstrate monooxygenase inhibitors, NaF and piperonyl butoxide. MCE is expressed throughout development and is most concentrated in the gut tissues of the larvae. Subcellular fractionation indicated that MCE was localized primarily in the mitochondria of resistant insects and the cytoplasm of susceptible insects. The enzyme was purified to homogeneity from both strains, and has a molecular weight of 59,000. However, chromatofocusing indicated that resistant insects have two MCEs with pIs of 6.8 and 6.2, while susceptible insects possessed only one MCE with a pI of 6.8. The MCE unique to the resistant strain hydrolysed malathion 18 times faster than the MCE common to both strains, suggesting that malathion resistance in C. tarsalis is due to the presence of a qualitatively different esterase in the resistant strain.

Published
1994

177. Insecticide resistance and malathion carboxylesterase in the sheep blowfly, Lucilia cuprina

Author

Virginia K. Walker, Robyn J. Russell, and Steven Whyard

Subjects
Male, Isoflurophate, Physostigmine, Molecular Sequence Data, Cell Fractionation, Biochemistry, Esterase, Paraoxon, Insecticide Resistance, Carboxylesterase, chemistry.chemical_compound, Genetics, medicine, Animals, Amino Acid Sequence, Isoelectric Point, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Crosses, Genetic, chemistry.chemical_classification, Binding Sites, Strain (chemistry), biology, Diptera, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Organophosphates, Molecular Weight, Kinetics, Enzyme, chemistry, Lucilia cuprina, Malathion, Female, Cell fractionation, Carboxylic Ester Hydrolases, Oligopeptides, medicine.drug
Abstract

Resistance to the organophosphorus insecticide malathion in genetically related strains of the Australian sheep blowflyLucilia curprina was examined. Separate lines of blowflies were established by homozygosis of the fourth chromosome of the parental RM strain. Both the RM and the derived resistant (der-R) strains are approximately 100 times more resistant to malathion than the related susceptible der-S strain, resistance being correlated with a 45- to 50-fold increase in a malathion carboxylesterase (MCE) activity. MCE has a pH optimum ranging between 6.6 and 8.0 and is strongly inhibited by the carboxylesterase inhibitors triphenyl phosphate, paraoxon, and diiospropylfluorophosphate. Subcellular fractionation revealed that MCE was localized predominantly to the cytosol and mitochondria in both resistant and susceptible blowflies. A single MCE was purified to homogeneity from RM blowflies. It has a pI of 5.5, is a monomer of 60.5 kDa, and hydrolyzes malathion with aV max of 755 nmol/min/mg protein and aK m of 11.0 µM. L. cuprina have thus evolved a remarkable MCE which is faster and more efficient at hydrolyzing a specific insecticide than any other insect esterase yet described.

Published
1994

179. The purification of dihydrofolate reductase from Drosophila melanogaster

Author

Susan L. Rancourt and Virginia K. Walker

Subjects
Molecular Sequence Data, Biophysics, Saccharomyces cerevisiae, Biology, Biochemistry, Chromatography, Affinity, Affinity chromatography, Structural Biology, Sequence Homology, Nucleic Acid, Dihydrofolate reductase, Escherichia coli, Animals, Humans, Amino Acid Sequence, Molecular Biology, Peptide sequence, Gel electrophoresis, chemistry.chemical_classification, Fast protein liquid chromatography, biology.organism_classification, Chromatography, Ion Exchange, Molecular biology, Molecular Weight, Kinetics, Lacticaseibacillus casei, Tetrahydrofolate Dehydrogenase, Enzyme, Drosophila melanogaster, chemistry, Sephadex, biology.protein, Chromatography, Gel
Abstract

Dihydrofolate reductase (DHFR) has been purified over 30,000-fold from Drosophila adults with a yield of 35%, using a combination of low pH extraction, (NH4)2SO4 precipitation, Sephadex gel filtration, Affi-Gel blue affinity chromatography, ion exchange and gel filtration FPLC. The Drosophila enzyme is a soluble, 17-22 kDa monomeric protein displaying the two pH optima characteristic of eukaryotic DHFRs. The sequence of the first 23 amino acids from the amino-terminal end of the protein shows that Drosophila DHFR is more homologous to the mosquito and vertebrate DHFRs than to the prokaryotic enzymes. However, the percent similarity between the two insect enzymes is not as close as expected when compared to the virtually identical initial sequence conservation of mammalian DHFRs.

Published
1990

180. Wolffish antifreeze protein from transgenic Drosophila

Author

Virginia K. Walker, Peter L. Davies, Derrick E. Rancourt, and Iain D. Peters

Subjects
Genetic Vectors, Molecular Sequence Data, Biomedical Engineering, Bioengineering, Chimeric gene, Applied Microbiology and Biotechnology, Animals, Genetically Modified, Transformation, Genetic, Antifreeze protein, Antifreeze Proteins, Hemolymph, Gene expression, Animals, Amino Acid Sequence, RNA, Messenger, Promoter Regions, Genetic, Gene, Glycoproteins, biology, Base Sequence, Egg Proteins, Vitellogenesis, Fishes, Promoter, biology.organism_classification, Molecular biology, Atlantic wolffish, Drosophila melanogaster, Biochemistry, Molecular Medicine, Female, Biotechnology, Plasmids
Abstract

We have expressed two antifreeze protein genes from the Atlantic wolffish, Anarhichas lupus, in Drosophila melanogaster by placing them under the divergent transcriptional control of the host yolk poly-peptide (1 and 2) gene promoters. Both genes were joined to the central promoter region by fusion within the DNA encoding the signal polypeptides. The chimeric genes were introduced into flightless mutant Drosophila through P-element transformation. Transformed adult females from individual lines accumulated 1.5–5 mg/ml of antifreeze protein in their hemolymph. The protein was purified to homogeneity from hemolymph following thermal denaturation, step elution from SP-Sephadex, and reverse-phase HPLC. It was recovered in high yield and retained full biological activity even though one of the two gene fusions gave rise to a seven amino acid N-terminal extension on its antifreeze protein product.

Published
1990

183. Vitellogenesis and fertility in Drosophila females with low ecdysteroid titres; the L(3)3DTS mutation

Author

Jeanette J. A. Holden, Colin G.H. Steel, Virginia K. Walker, and Kellie L. Watson

Subjects
Genetics, Ecdysteroid, animal structures, food.ingredient, biology, Physiology, Mutant, Maternal effect, Embryo, biology.organism_classification, Andrology, chemistry.chemical_compound, food, chemistry, Insect Science, Drosophilidae, Yolk, Vitellogenesis, Drosophila melanogaster
Abstract

After 5 days at the restrictive temperature (29.5°C) adult Drosophila females heterozygous for the dominant temperature-sensitive mutation, L(3)3DTS, have an ecdysteroid level of about half that in mutant females at 22°C and subsequently become completely sterile due to the inviability of progeny embryos. The lethal phase of progeny from mutant females varies depending upon the length of time DTS-3 females are kept at a sublethal temperature of 27°C. Thus, the DTS-3 mutation shows a maternal effect, and a deficiency of ecdysteroids or ecdysteroid-induced gene products may be responsible for progeny lethality. This lethality cannot be attributed to a deficit in the products of the hormonally-regulated yolk polypeptide genes however, since yolk polypeptide mRNA and protein levels are not reduced in DTS-3 females at the restrictive temperature.

Published
1987

184. A comparative study of the NADP-malic enzymes from Drosophila and chick liver

Author

Diane Krochko, John H. Williamson, Billy W. Geer, Virginia K. Walker, and Melvin J. Oliver

Subjects
chemistry.chemical_classification, animal structures, biology, Physiology, Protein subunit, General Medicine, Oxidative phosphorylation, Reductase, biology.organism_classification, Biochemistry, Molecular biology, Enzyme, Isoelectric point, chemistry, Oxidoreductase, Drosophila melanogaster, Molecular Biology, Oxidative decarboxylation
Abstract

1. 1. NADP-Malic enzyme (NADP-ME; l -malate:NADP + oxidoreductase (decarboxylating) EC 1.1.1.40) from Drosophila melanogaster has a mol wt of 266,000 and a subunit mol wt of 67,250 ± 3080. The amino acid composition of Drosophila NADP-ME is closely related to the NADP-ME's from pigeon liver, chick liver, rat liver and E. coli . 2. 2. Drosophila NADP-ME exhibits major malate oxidative decarboxylase and oxalacetate decarboxylase activities and minor pyruvate and oxalacetate reductase activities. 3. 3. The isoelectric point for Drosophila NADP-ME is 5.1 and the pH optimum for the oxidative decarboxylation of l -malate is 7.9. 4. 4. The malate oxidative decarboxylase activity of Drosophila NADP-ME is inhibited by NADPH, oxalacetate and ATP, but not pyruvate; the reverse reaction is inhibited by l -malate and NADP + . Drosophila NADP-ME is insensitive to N -ethylmaleimide at concentrations that strongly inhibit chick liver NADP-ME. 5. 5. Drosophila NADP-ME and chick liver NADP-ME are rapidly inactivated by palmityl-CoA, a process that is slowed by NADP + and Mn ⇔ .

Published
1980

185. Ontogeny and tissue distribution of leucine aminopeptidase in Drosophila melanogaster

Author

John H. Williamson and Virginia K. Walker

Subjects
Malpighian tubule system, animal structures, fungi, Midgut, Biology, biology.organism_classification, Biochemistry, Isozyme, Aminopeptidase, Molecular biology, Insect Science, parasitic diseases, Melanogaster, Leucine, Drosophila melanogaster, human activities, Molecular Biology, Leucyl aminopeptidase
Abstract

Drosophila melanogaster larvae contain two isozymes of leucine aminopeptidase that are detectable on starch gels. The more anodally migrating isozyme, LAP A, is first detected 12 hr after oviposition and is a soluble enzyme localized to the haemolymph. The specific activity of the other isozyme, LAP D, is highest in young larvae and associated with cell membranes, especially from the midgut and Malpighian tubules. It is probable that these two enzymes are both functionally and spatially unique in larvae of D. melanogaster .

Published
1980

186. Isolation of two Drosophila melanogaster genes abundantly expressed in the ovary during vitelline membrane synthesis

Author

Virginia K. Walker, Jeanette J. A. Holden, Michael J. Higgins, and Bradley N. White

Subjects
Vitelline membrane, Locus (genetics), Homology (biology), Restriction map, Complementary DNA, Animals, RNA, Messenger, Cloning, Molecular, Molecular Biology, Gene, Base Sequence, biology, Egg Proteins, Ovary, Nucleic Acid Hybridization, DNA, DNA Restriction Enzymes, Cell Biology, biology.organism_classification, Molecular biology, Drosophila melanogaster, Genes, Protein Biosynthesis, Chromosomal region, Female, Vitelline Membrane, Developmental Biology
Abstract

Several genomic clones were isolated from a Drosophila library screened with cDNA prepared from abundant adult female mRNA. Cytoplasmic dot hybridizations have shown that the genes in all of these clones are expressed only in posteclosion (stages 8-14) follicles. One set of overlapping clones (lambda 20, lambda 28, and lambda 30) was localized by in situ hybridization to 66D, a previously described locus for chorion genes. Restriction mapping demonstrated that these clones contained chorion genes which had been isolated previously. Another clone, lambda 7, was mapped to chromosomal region 26A. This clone carries genes that hybridized to mRNA species similar or identical in size to the known chorion genes encompassed by lambda 28. Furthermore, one of these genes shows homology to the 66D chorion locus, apparently with the s18-1 gene. R-loop and S1-nuclease mapping indicated that lambda 7 contains two genes of 700-800 base pairs in length. Dot hybridization of cytoplasmic RNA from egg chambers demonstrated that these genes are expressed predominantly during stages 9 + 10, the time of vitelline membrane synthesis. Analysis of DNA extracted from embryos and various female tissues by dot hybridization showed that lambda 7 sequences are not amplified in the mature ovary. These results suggest that the two genes carried by lambda 7 and derived from region 26A may code for protein components of the vitelline membrane. In addition it appears that some evolutionary relatedness exists between one of these genes and a member of the chorion multigene family.

Published
1984

187. Yolk polypeptide gene expression in Minute Drosophila females

Author

Virginia K. Walker

Subjects
food.ingredient, Low protein, Period (gene), Mutant, Biology, Biochemistry, food, Yolk, Gene expression, Genetics, Animals, Molecular Biology, Gene, Crosses, Genetic, Ecology, Evolution, Behavior and Systematics, Messenger RNA, Egg Proteins, RNA, General Medicine, Molecular biology, Molecular Weight, Drosophila melanogaster, Genes, Protein Biosynthesis, Mutation, embryonic structures, Electrophoresis, Polyacrylamide Gel, Female
Abstract

Minutes have been considered for some time to be mutant at the sites of synthesis of some components of the protein synthetic apparatus. To study the hypothetical relationship between Minutes and suboptimal translation, a group of abundant proteins, the yolk polypeptides, was assayed in outcrossed females bearing M(3)w, M(3)h y , or M(1)n mutations. Recently emerged Minute females contained a lower amount of yolk polypeptides, in both ovarian and nonovarian tissues, than their non-Minute sisters. This low level correlated with the lower abundance of cytoplasmic RNA in Minutes compared to control females. By 1 week of age, both M(3)w and their non-Minute sibs contained the same amount of yolk polypeptides and the corresponding mRNA. The double heterozygote, ap 4/+;M(3)w/+, did not differ in yolk polypeptide content from control flies. M(3)w females demonstrated reduced fecundity during the period of low yolk polypeptide content but gradually increased egg deposition as yolk polypeptide levels rose. These results suggest that the low protein levels are due to the slower maturation of M(3)w, and not to less efficient translation machinery.

Published
1985

188. Analysis of molting and metamorphosis in the ecdysteroid-deficient mutantL(3)3DTS ofDrosophila melanogaster

Author

Virginia K. Walker, Jeanette J. A. Holden, J. Gausz, K. L. Watson, Bradley N. White, and P. Maroy

Subjects
medicine.medical_specialty, Ecdysteroid, animal structures, media_common.quotation_subject, Ecdysterone, fungi, Mutant, Cell Biology, Biology, Prothoracic gland, biology.organism_classification, Cell biology, chemistry.chemical_compound, Imaginal disc, Endocrinology, chemistry, Internal medicine, Genetics, medicine, Instar, Metamorphosis, Drosophila melanogaster, Developmental Biology, media_common
Abstract

The dominant temperature-sensitive mutation L(3)3DTS (DTS-3) in Drosophila melanogaster causes lethality of heterozygotes during the third larval instar at the restrictive temperature (29°C). Temperature-shift experiments revealed two distinct temperature-sensitive periods, with lethal phases during the third larval instar (which may persist for 4 weeks) and during the late pupal stage. At 29°C mutant imaginal discs are unable to evert in situ, but did evert normally if cultured in the presence of exogenous ecdysterone or when implanted into wild-type larval hosts. The only morphologically abnormal tissue present in the lethal larvae is the ring gland, the prothoracic gland being greatly hypertrophied in third instar DTS-3 larvae. Injection of a single wild-type ring gland rescued these mutant larvae, indicating that the mutant gland is functionally, as well as morphologically, abnormal. Finally, the mutant larvae were shown to have less than 10% of the wild-type ecdysteroid levels. These results are all consistent with a proposed lesion in ecdysteroid hormone production in DTS-3 larvae. A comparison with the phenotypes of other “ecdysone-less” mutants is presented.

Published
1985

189. General esterase, malathion carboxylesterase, and malathion resistance in Culex tarsalis

Author

Steven Whyard, Virginia K. Walker, A.E.R. Downe, G.R. Wyatt, and R. Ziegler

Subjects
chemistry.chemical_classification, Larva, Strain (chemistry), Health, Toxicology and Mutagenesis, fungi, General Medicine, Biology, Esterase, Microbiology, Carboxylesterase, Starch gel electrophoresis, chemistry.chemical_compound, Enzyme, Biochemistry, chemistry, In vivo, Malathion, Agronomy and Crop Science
Abstract

The role of esterases in malathion resistance in Culex tarsalis has been investigated. When larvae of a resistant and a sensitive strain were placed in water containing [ 14 C]malathion, malathion penetrated to give initially similar internal levels. With resistant mosquitoes, after 15 min the internal malathion concentration decreased to low levels while the monoacid degradation products accumulated in the larvae and were excreted into the surrounding water, whereas in susceptible larvae the internal malathion level stayed high and was lethal. It is suggested that the decrease in internal malathion and the resulting resistance were caused by an active malathion carboxylesterase in the resistant strain. A specific assay for malathion carboxylesterase with [ 14 C]malathion showed 55 times more activity in resistant than in susceptible larvae, whereas when general esterase activity was assayed with α-naphthyl acetate only 1.7 times the activity was found. Analyses by starch gel electrophoresis showed a peak of malathion carboxylesterase, 60-fold higher from resistant than from susceptible larvae, in a gel zone which did not stain for general esterase activity. General esterases that did not hydrolyze malathion showed different electrophoretic patterns in the two populations, which are likely due to the nonisogenic character of the strains. These results show that use of a specific assay and the demonstration of degradation of malathion in vivo are essential for assessment of the contribution of esterase activity to the malathion-resistant phenotype in mosquito populations.

Published
1987

190. The heat shock response inLocusta migratoria

Author

Virginia K. Walker, S. Whyard, and G.R. Wyatt

Subjects
Thermal shock, biology, Physiology, Anatomy, Thermoregulation, biology.organism_classification, Biochemistry, Cell biology, Acrididae, Vitellogenin, Endocrinology, Heat shock protein, Shock (circulatory), biology.protein, medicine, Animal Science and Zoology, medicine.symptom, Heat shock, Ecology, Evolution, Behavior and Systematics, Locust
Abstract

Locusta migratoria adults reared at 27–30°C die after 2 h at 50°C, but they survive this temperature stress if first exposed to 45°C for 0.5 to 4.5 h. Fat bodies from adult females produce a set of at least six specific polypeptides with molecular weights of 81, 73, 68, 42, 28, and 24×103 in reponse to heat shock (39–47°C for 1.5 h). These molecular weights closely match those of the heat shock proteins (hsps) observed inDrosophila, with the possible exception of the 42 kd protein of locusts. The optimal temperature for induction of hsps in locusts is 45°C, which is one of the highest heat shock temperatures reported in metazoans. The correspondence between the optimal temperature for hsp induction and the temperature at which enhanced heat tolerance is acquired (both 45 °C) suggests that the hsps may be associated with thermal protection in these insects. There appears to be no substantial translational control in the locust heat shock response, since other proteins are produced, albeit with some reduction, under heat shock conditions. Vitellogenin synthesis in fat bodies at 45°C is 55% of that observed at 30°C. The high optimal heat shock induction temperature and the continued synthesis of non-heat shock proteins may be adaptive to the locust's natural environment.

Published
1986

191. Genetic analysis of mitomycin C-induced interchange in Drosophila melanogaster females

Author

John H. Williamson and Virginia K. Walker

Subjects
Male, Health, Toxicology and Mutagenesis, Y chromosome, Genetic analysis, Mitomycins, Genetics, Animals, Radiation Genetics, Molecular Biology, X chromosome, Chromosome Aberrations, Sex Chromosomes, biology, Mosaicism, X-Rays, Genetic Complementation Test, Mitomycin C, biology.organism_classification, Molecular biology, Drosophila melanogaster, Fertility, Oocytes, Female, Mutagens
Abstract

A genetic analysis of an array of mitomycin-induced rearrangements in immature Drosophila oocytes is reported. Induced aberrations were recovered representing detachments of the compound- X chromosome, Y chromosome fragments, X chromosome loss and mosaicism. The spectrum of rearrangements induced by mitomycin C was very similar to that induced by X-ray treatment of immature oocytes. This work suggests that mitomycin C has two modes of action. The drug is radiomimetic for it induces the types of aberrations recovered after X-irradiation. Mitomycin C also seems to have a delayed effect which is reflected in the relatively high recovery of mosaics.

Published
1975

192. The control of ecdysterone-regulated puffs in drosophila salivary glands

Author

Michael Ashburner and Virginia K. Walker

Subjects
medicine.medical_specialty, Time Factors, Genotype, Ecdysterone, Period (gene), Chromosomes, Salivary Glands, General Biochemistry, Genetics and Molecular Biology, stomatognathic system, Internal medicine, Gene duplication, medicine, Animals, Drosophila, Rapid response, Salivary gland, biology, biology.organism_classification, respiratory tract diseases, body regions, Drosophila melanogaster, medicine.anatomical_structure, Endocrinology, sense organs, Hormone
Abstract

The hormone ecdysterone induces a characteristic sequence of changes in puffing activity in the salivary gland chromosomes of Drosophila melanogaster. A few puffs are induced very rapidly by the hormone and a larger number are only active after a lag period of several hours. To study the interrelationship of the activities of these "early" and "late" puffs, genotypes aneuploid for two early puffs have been constructed. In the duplication genotype the early puffs are active for less time than in the euploids while in the deficient genotype they are active for a longer period. Under appropriate assay conditions duplication of the early puffs results in a greater and more rapid response of some, but not all, late puffs to the hormone. Deletion of the early puffs results in a delayed response of the same late puffs. These data support the idea that the early puffs are autoregulated and that their products control activity at some late puff sites.

Published
1981

193. Juvenile hormone-regulated locust vitellogenin genes: Lack of expression after transfer intoDrosophila

Author

Virginia K. Walker, Michael R. Kanost, J. Locke, and G.R. Wyatt

Subjects
Genetics, animal structures, biology, Physiology, Intron, General Medicine, biology.organism_classification, Biochemistry, Exon, Regulatory sequence, Insect Science, Gene expression, Coding region, Genomic library, Gene, Locust
Abstract

In Locusta migratoria, vitellogenin (Vg) is normally produced only in adult female fat body under stimulation by juvenile hormone (JH). This permits study of (a) programming of genes for expression and (b) modulation of expression by JH. From L. migratoria genomic libraries, two Vg genes (A and B) have been cloned. Coding regions encompass 10-12 kbases of DNA, contain introns, and hybridize with 6,300 nucleotide mRNAs. Although the 5'-exons, coding for signal peptides, are similar in sequence, the remaining coding sequences have distinct restriction maps and show no crosshybridization. Upstream DNA from the two genes has some sequence similarity, corresponding to potential regulatory regions. Dot hybridization assays of mRNAs A and B in locust fat body after induction by methoprene show coordinate expression of the two Vg genes and also a third, unidentified JH-regulated gene. In the hope of providing a system for identification of control sequences, P element-mediated transformation has been used to transfer locust DNA into Drosophila. From Vg gene B, a central block was deleted, to give a mini-Vg gene comprising 5' and 3' terminal coding sequences plus upstream flanking DNA. This was incorporated into the P element vector Carnegie 20 and injected into Drosophila embryos. Three transformed fly lines were obtained in which the locust mini-Vg gene was integrated at different chromosomal sites. On Northern blots of fly RNA, however, no expression of the locust sequences could be detected, even though the accompanying rosy gene was expressed. This suggests that the locust regulatory sequences were not recognized in Drosophila, and current effort is directed toward developing a homologous locust transformation system for expression assay of cloned JH-regulated genes.

Published
1986

194. Flounder Antifreeze Protein Synthesis under Heat Shock Control in Transgenic Drosophila melanogaster

Author

Virginia K. Walker, Peter L. Davies, and Derrick E. Rancourt

Subjects
Hot Temperature, Transcription, Genetic, Flounder, Biology, Antifreeze protein, Antifreeze Proteins, Heat shock protein, Gene expression, Melanogaster, Animals, Cloning, Molecular, Promoter Regions, Genetic, Molecular Biology, Gene, Heat-Shock Proteins, Glycoproteins, Genetic transfer, Chromosome Mapping, Nucleic Acid Hybridization, DNA Restriction Enzymes, Cell Biology, biology.organism_classification, Molecular biology, Drosophila melanogaster, Genes, Flatfishes, Winter flounder, Research Article
Abstract

The gene coding for the most abundant antifreeze protein (AFP) in the winter flounder was placed downstream of the Drosophila melanogaster hsp70 promoter and introduced into the D. melanogaster germ line by P-element-mediated transformation. In each of six transgenic strains tested, heat shock treatment induced the expression of two major AFP gene transcripts and one minor one. All three transcripts were spliced despite the lack of an obvious D. melanogaster internal intron-splicing sequence. The variation in transcript length was caused by selection of different polyadenylation sites. Western blots showed the presence of immunoreactive AFP in hemolymph from heat-shocked transformants. The immunoreactive material had a molecular weight of 6,200, which is consistent with the loss of the signal sequence from the primary translation product and the retention of the pro sequence. Thus, all the signals for flounder pre-mRNA and preprotein processing were recognized in D. melanogaster.

Published
1987

195. Differential characterization of two leucine aminopeptidases in Drosophila melanogaster

Author

Virginia K. Walker, John H. Williamson, and Robert B. Church

Subjects
animal structures, Electrophoresis, Starch Gel, Chromogenic Substrates, Biology, Biochemistry, Cofactor, Substrate Specificity, Leucyl Aminopeptidase, Genetic linkage, Gene duplication, Genetics, Animals, Molecular Biology, Ecology, Evolution, Behavior and Systematics, chemistry.chemical_classification, Molecular mass, fungi, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Molecular Weight, Kinetics, Drosophila melanogaster, Enzyme, chemistry, Larva, biology.protein, Leucine
Abstract

Two leucine aminopeptidases from Drosophila melanogaster larvae have been partially purified. The LAP A and D enzymes have similar biochemical characteristics including molecular weights of approximately equal to 280,000 daltons. Michaelis-Menten constants of approximately equal to 0.05 mM, associations with metal cofactors, and specificities toward natural and chromogenic substrates. They differ in their pH optima and spatial distributions. If the closely linked genes that code for these enzymes have resulted from a tandem gene duplication event, it is suggested that there has been subsequent evolutionary divergence. This would provide Drosophila larvae with two related, but functionally distinct enzymes.

Published
1981

196. Dietary modulation and histochemical localization of leucine aminopeptidase activity in Drosophila melanogaster larvae

Author

Billy W. Geer, Virginia K. Walker, and John H. Williamson

Subjects
animal structures, digestive, oral, and skin physiology, fungi, Lumen (anatomy), Midgut, Biology, biology.organism_classification, Biochemistry, Molecular biology, Aminopeptidase, Isozyme, Insect Science, parasitic diseases, Secretagogue, Drosophila melanogaster, Leucine, human activities, Molecular Biology, Leucyl aminopeptidase
Abstract

An isozyme of leucine aminopeptidase (LAP D) in Drosophila melanogaster larvae was localized in the midgut cells, midgut lumen, the peritrophic membrane and the lumen contents of the hind intestine by histochemical methods. Leucine aminopeptidase activity in larvae increased in response to increased concentrations of dietary protein. The implications of a LAP D dependence on a secretagogue stimulus are discussed.

Published
1980

197. Identification of the ice-binding face of a plant antifreeze protein

Author

Virginia K. Walker, Peter L. Davies, Adam J. Middleton, and Alan Brown

Subjects
0106 biological sciences, Models, Molecular, Protein Folding, Surface Properties, Mutant, Molecular Sequence Data, Biophysics, Biology, Circular dichroism, 01 natural sciences, Biochemistry, DNA-binding protein, Lolium perenne, Protein Structure, Secondary, 03 medical and health sciences, Structural Biology, Antifreeze protein, Antifreeze Proteins, Botany, Genetics, Escherichia coli, Lolium, Amino Acid Sequence, Binding site, Tyrosine, Molecular Biology, 030304 developmental biology, Plant Proteins, 0303 health sciences, Binding Sites, Sequence Homology, Amino Acid, Mutagenesis, Reproducibility of Results, Cell Biology, Plant, biology.organism_classification, Ice binding, Mutation, Mutagenesis, Site-Directed, Thermal hysteresis, Ryegrass, Hydrophobic and Hydrophilic Interactions, 010606 plant biology & botany, Protein Binding
Abstract

The antifreeze protein of Lolium perenne, a perennial ryegrass, was previously modeled as a beta-roll with two extensive flat beta-sheets on opposite sides of the molecule. Here we have validated the model with a series of nine site-directed steric mutations in which outward-pointing short side-chain residues were replaced by tyrosine. None of these disrupted the fold. Mutations on one of the beta-sheets and on the sides of the protein retained 70% or greater activity. Three mutations that clustered on the other flat surface lost up to 90% of their antifreeze activity and identify this beta-sheet as the ice-binding face.

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198. Gene Transfer in Insects

Author

Virginia K. Walker

Subjects
Transposable element, Genetics, Entomology, Transformation (genetics), Expression vector, fungi, Mutant, Biology, Gene, Phenotype, Conserved sequence
Abstract

Publisher Summary This chapter presents a cursory and necessarily selective view of gene transfer technology as it applies to insects. The transfer of genes into insects and insect cells offers a range of exciting potential applications. For industrial geneticists, the baculovirus-mediated transfer of human gene sequences to armyworm cells can provide abundant quantities of secreted, processed, and marketable protein for human disease therapy. In applied entomology, transfer techniques offer the prospect of genetically engineering insects either to control pests or to confer additional useful qualities on presently exploited species. Molecular biologists employ the technology to recognize regulatory elements and assess expression of experimentally modified genes, to obtain insight into the functional evolutionary conservation of DNA signals, and to identify cloned sequences or practice gene therapy by rescue of mutant phenotypes with transferred sequences. A completely different approach to achieving somatic transformation in insects has used a genetically engineered AcNPV as an expression vector.

Published
1989

199. Fidelity of a Bacterial DNA Polymerase in Microgravity, a Model for Human Health in Space

Author

Aaron H Rosenstein and Virginia K Walker

Subjects
klenow exonuclease, DNA repair, microgravity, base substitutions, DNA deletions, next generation sequencing, Biology (General), QH301-705.5
Abstract

Long-term space missions will expose crew members, their cells as well as their microbiomes to prolonged periods of microgravity and ionizing radiation, environmental stressors for which almost no earth-based organisms have evolved to survive. Despite the importance of maintaining genomic integrity, the impact of these stresses on DNA polymerase-mediated replication and repair has not been fully explored. DNA polymerase fidelity and replication rates were assayed under conditions of microgravity generated by parabolic flight and compared to earth-like gravity. Upon commencement of a parabolic arc, primed synthetic single-stranded DNA was used as a template for one of two enzymes (Klenow fragment exonuclease+/−; with and without proofreading exonuclease activity, respectively) and were quenched immediately following the 20 s microgravitational period. DNA polymerase error rates were determined with an algorithm developed to identify experimental mutations. In microgravity Klenow exonuclease+ showed a median 1.1-fold per-base decrease in polymerization fidelity for base substitutions when compared to earth-like gravity (p = 0.02), but in the absence of proofreading activity, a 2.4-fold decrease was observed (p = 1.98 × 10−11). Similarly, 1.1-fold and 1.5-fold increases in deletion frequencies in the presence or absence of exonuclease activity (p = 1.51 × 10−7 and p = 8.74 × 10−13), respectively, were observed in microgravity compared to controls. The development of this flexible semi-autonomous payload system coupled with genetic and bioinformatic approaches serves as a proof-of-concept for future space health research.

Published
2021
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200. The Brachypodium distachyon cold-acclimated plasma membrane proteome is primed for stress resistance

Author

Collin L Juurakko, Melissa Bredow, Takato Nakayama, Hiroyuki Imai, Yukio Kawamura, George C diCenzo, Matsuo Uemura, and Virginia K Walker

Subjects
Genetics, QH426-470
Abstract

AbstractIn order to survive subzero temperatures, some plants undergo cold acclimation (CA) where low, nonfreezing temperatures, and/or shortened day lengths allow cold-hardening and survival during subsequent freeze events. Central to this response is the plasma membrane (PM), where low temperature is perceived and cellular homeostasis must be preserved by maintaining membrane integrity. Here, we present the first PM proteome of cold-acclimated Brachypodium distachyon

Published
2021
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