Gel Electrophoresis of Chloroplast Polypeptides: Comparison of One-Dimensional and Two-Dimensional Gel Analyses of Chloroplast Polypeptides From Euglena gracilis

Euglena chloroplast polypeptides are resolved by an adaptation of the two-dimensional gel electrophoretic technique of O'Farrell (1975 J Biol Chem 250: 4007-4021). The present results are compared with those obtained by our earlier two-dimensional gel analyses as well as those obtained by one-dimensional gel analyses. Up to 75 micrograms of Euglena chloroplast polypeptides are resolved on one-dimensional sodium dodecylsulfate linear gradient 7.5 to 15% polyacrylamide gels into 43 stained polypeptide bands compared to only 33 bands resolved on a similar gel containing only 10% polyacrylamide. In contrast, two-dimensional gel electrophoresis (isoelectric focusing for the first dimension, sodium dodecylsulfate gel electrophoresis for the second dimension) further improves the resolution of the chloroplast polypeptides and especially so when a linear gradient gel is used for the second dimension. Delipidation of Euglena chloroplasts with acetone-ether and subsequent solubilization of polypeptides with Triton X-100 followed by sonication are all necessary for successful resolution of chloroplast polypeptides on two-dimensional gels. Up to 300 micrograms of chloroplast polypeptides can be clearly resolved into 56 to 59 stainable spots by the present two-dimensional gel technique when a linear gradient gel is used for the second dimension. Thus, about 30% of the polypeptide bands on a one-dimensional gel are separated into multiple polypeptides on a two-dimensional gel. The use of two-dimensional gels to separate labeled polypeptides with subsequent detection of labeled spots by autoradiography or fluorography again improves the resolution of the chloroplast polypeptides. For example, when ³⁵S-labeled chloroplast polypeptides are separated by the present two-dimensional gel technique with a linear gradient polyacrylamide gel in the second dimension, autoradiography or fluorography detects over 80 individual polypeptide spots. This is about twice the number resolved by our previous analyses which used a 10% polyacrylamide gel in the second dimension. Polypeptides detected range in molecular weight from about 8.5 to about 145 kilodaltons with apparent isoelectric points from pH 4.5 to 8.0. Fluorography provides rapid detection of labeled polypeptides and is 10 times more sensitive than autoradiography.     

Synthesis of plasma proteins in fetal, adult, and neoplastic human brain tissue

The synthesis of plasma proteins directed by mRNA from human brain tissues was studied by combining in vitro or in ovo translation of mRNAs with crossed immunoelectrophoresis of the mRNA-directed labeled polypeptides, followed by autoradiography of the washed plates. Poly(A)-containing mRNA was prepared from different developmental stages of fetal and postnatal human brain and also from primary glioblastomas and meningiomas. Several plasma protein-like polypeptides were identified in the autoradiographs by their migration coordinates in the two-dimensional gels, compared with immunoprecipitates formed by mature, unlabeled, stainable proteins. These included polypeptides migrating like Gc globulin, haptoglobin, fibrinogen, alpha-fetoprotein, transferrin, cholinesterase, and alpha 2-macroglobulin; other, yet unidentified plasma proteins, were also observed. In general, the synthesis of these plasma proteins appeared to be more pronounced in fetal and neoplastic brain tissues than in postnatal tissues. However, clear immunoprecipitates for some of these plasma proteins could also be detected in products directed by mRNA from particular regions of mature, normal brains, indicating that some synthesis of plasma proteins takes place in the human brain even as late as 40 years of age. mRNAs for several proteins were also identified in samples of neoplastic brain. mRNA for transferrin was identified in normal fetal and adult brain but not in either the glioblastomas or meningiomas studied. Microinjected Xenopus oocytes, in which post-translational processing occurs as well, were also used to translate fetal brain mRNA. Several plasma proteins could be detected in the translation products which were induced and stored in the oocytes. These included hemopexin, which could not be detected in the in vitro system. Others, such as cholinesterase, were found to be secreted by the oocytes. These findings indicate that different cell types in the human brain may produce and either store or secrete particular plasma proteins at defined stages in their development.     

Mitochondrial DNA,RNA, and protein synthesis in different regions of developing rat brain

In vivo and in vitro (tissue slices) incorporation of labeled precursors into DNA, RNA, and proteins was measured in mitochondria obtained from cerebral hemispheres, cerebellum, and brain stem of rats at different days of postnatal development. To compare the synthesis of macromolecules in mitochondria with that in other subcellular fractions, the incorporation of labeled precursors into DNA, RNA, and proteins extracted from nuclei and into RNA and proteins extracted from microsomes and cytoplasmic soluble fractions was also measured.The results obtained showed that the incorporation of [³H]thymidine into DNA and of [¹⁴C]leucine into proteins of nuclei and mitochondria from the various brain regions examined decreased during postnatal development, however, at 30 days of age the specific radioactivity of mitochondrial DNA was higher than that of nuclear DNA. [³H]Uridine incorporation into RNA decreased from 10 to 30 days of age in nuclei while in mitochondria it was quite similar at both ages. This result may be due to a faster turnover of mitochondrial RNA compared to that of mitochondrial DNA and proteins. The results obtained suggest an active biosynthesis of macromolecules in brain mitochondria and might indicate an intense biogenesis of these organelles in rat brain during postnatal development.Preliminary reports of these results were presented at the XI FEBS Meeting, Copenhagen, August 14–19, 1977, Poster number A2-2-155-3, and at III Meeting of Italian Biochem. Soc., Siena, October 3–5, 1977, Abstract C6.     

Transforming growth factors from human colonic carcinoma cells induced molecular alterations in untransformed mouse AKR embryo fibroblasts

Over 700 polypeptide spots could be detected by two-dimensional electrophoretic analyses of membranes prepared from the murine AKR fibroblastic cells. Out of this abundance of polypeptides, only 9 polypeptide spots were found to be differentially expressed between the untransformed AKR-2B cells and their methylcholanthrene-transformed counterparts, the AKR-MCA cells. Treatment of the untransformed AKR-2B cells with transforming growth factors, prepared from the serum-free conditioned medium of HCT 116 MOSER human colonic carcinoma cells, induced the altered expression of 6 of these polypeptides which paralleled the electrophoretic profile of their permanently transformed counterparts, the AKR-MCA cells.     

New protein extraction/solubilization protocol for gel-based proteomics of rat (female) whole brain and brain regions

The rat is an accepted model for studying human psychiatric/neurological disorders. We provide a protocol for total soluble protein extraction using trichloroacetic acid/acetone (TCA/A) from rat (female) whole brain, 10 brain regions and the pituitary gland, and show that two-dimensional gel electrophoresis (2-DGE) using pre-cast immobilized pH (4-7) gradient (IPG) strip gels (13 cm) in the first dimension yields clean silver nitrate stained protein profiles. Though TCA/A precipitation may not be "ideal", the important choice here is the selection of an appropriate lysis buffer (LB) for solubilizing precipitated proteins. Our results reveal enrichment of protein spots by use of individual brain regions rather than whole brain, as well as the presence of differentially expressed spots in their proteomes. Thus individual brain regions provide improved protein coverage and are better suited for differential protein detection. Moreover, using a phosphoprotein-specific dye, in-gel detection of phosphoproteins was demonstrated. Representative high-resolution silver nitrate stained proteome profiles of rat whole brain total soluble protein are presented. Shortcomings apart (failure to separate membrane proteins), gel-based proteomics remains a viable option, and 2-DGE is the method of choice for generating high-resolution proteome maps of rat brain and brain regions.     

Two dimensional electrophoresis of thylakoid membrane proteins and its application to microsequencing

A procedure of two-dimensional gel electrophoresis adapted for application on membrane proteins from the thylakoids is described. It involves isoelectric focusing in the first dimension and size dependent electrophoresis in the second dimension. About 100 polypeptides are clearly separated with relatively little streaking. About 20 polypeptides are identified by immunoblotting or location in the gel. They are the polypeptides of the PS I core, the 64 kDa protein, the and subunits of CF1 ATPase, cytochrome f, Rieske iron-sulfur protein, the 23 kDa and 33 kDa polypeptides of the oxygen evolving complexes, CP29, CP24, CP27 and CP25 (last two proteins belong to LHCII). Some proteins give rise to two or more separate spots indicating a separation of different isoforms of these proteins. Among them, the LHCII polypeptides (27 kDa and 25 kDa) were each resolved into at least three spots in the pH range 4.75–5.90; the Rieske FeS protein, as published elsewhere (Yu et al. 1994), was separated into two forms having different isoelectric points (pI 5.1 and 5.4), each of them was also microsequenced; the 64 kDa protein claimed to be a LHCII-kinase was found to be multiple forms appearing in at least two isoforms with pI 6.2 (K1) and 6.0 (K2) respectively, furthermore, K1 can be resolved into two subpopulations.The lateral distribution of these proteins in the thylakoid membrane was determined by analysing the vesicles originating from different parts of the thylakoids. The data obtained from this analysis can be partially used as markers for different thylakoid domains.This procedure for sample solubilization and 2-D electrophoresis is useful for the analysis of the polypeptide composition of vesicles originating from the thylakoid membrane and for microsequences of individual polypeptides isolated from the 2-D gel.     

Changes in the tobacco leaf apoplast proteome in response to salt stress

The apoplast of plant cells is a dynamic compartment involved in many processes, including maintenance of tissue shape, development, nutrition, signalling, detoxification and defence. In this work we used Nicotiana tabacum plants as a model to investigate changes in the soluble apoplast composition induced in response to salt stress. Apoplastic fluid was extracted from leaves of control plants and plants exposed to salt stress, using a vacuum infiltration procedure. Two-dimension electrophoretic analyses revealed about 150 polypeptide spots in the pH range of 3.0 to 10.0, in independent protein extracts, with a high level of reproducibility between the two sample sets. Quantitative evaluation and statistical analyses of the resolved spots in treated and untreated samples revealed 20 polypeptides whose abundance changed in response to salt stress. Mass spectroscopic peptide separation and sequencing was used to identify polypeptides affected by salt stress. While the levels of some proteins were reduced by salt-treatment, an enhanced accumulation of protein species known to be induced by biotic and abiotic stresses was observed. In particular, two chitinases and a germin-like protein increased significantly and two lipid transfer proteins were expressed entirely de novo. Some apoplastic polypeptides, involved in cell wall modifications during plant development, remained largely unchanged. The significance of these components is discussed in the context of stress responses in plants.     

Electrophoretic analysis of snake venoms

Electrophoretic analyses were conducted on snake venoms from 21 species representing Elapidae, Crotalidae and Viperidae. Denatured and native venoms were analyzed by polyacrylamide gel electrophoretic (PAGE) methods with sodium dodecyl sulfate (SDS) and without SDS. Both SDS-PAGE and PAGE profiles of venoms from different snake species indicate that some proteins and polypeptide components of these venoms have common electrophoretic characteristics suggesting a genetic relationship. Conversely, the electropherograms also showed the characteristic protein and polypeptide profiles that could differentiate one snake species from another. Therefore, both SDS-PAGE and PAGE profiles suggest that proteins and polypeptides with similar characteristics abound among subspecies or related species, although each venom has a unique profile that differentiates one species from the other.     

Identification of three isozyme proteins of the catalytic subunit of the Na,K-ATPase in rat brain

Molecular genetic evidence indicates that there should be three different (Na+ + K+)-stimulated ATPase (Na,K-ATPase) alpha subunit isozymes in the brain where previously only two ("alpha" and "alpha(+)") were resolved as proteins. To detect and identify alpha 1, alpha 2, and alpha 3 isozymes, polypeptides made by cell-free translation (Schneider, J.W., Mercer, R.W., Gilmore-Hebert, M., Utset, M.F., Lai, C., Greene, A., and Benz, E.J., Jr. (1988) Proc. Natl. Acad. Sci. U.S.A. 85, 284-288) were analyzed by gel electrophoresis and proteolytic fingerprinting. Synthetic alpha 1 comigrated with tissue alpha 1, while alpha 2 and alpha 3 comigrated with the leading and trailing edges, respectively, of tissue "alpha(+)." Proteolytic fingerprints of newborn rat brain Na,K-ATPase labeled in vivo with L-[35S]methionine indicated the presence of alpha 1 and alpha 3, and a low level of alpha 2. Monoclonal antibodies were characterized by the electrophoretic mobility of their antigens and by their ability to recognize the Na,K-ATPases of kidney, brain, and skeletal muscle. The antibodies were used to assess isozyme expression in the brain. All three isozymes increased in abundance during development from the 18-day fetus to the adult. Small changes were seen in the relative level of expression of alpha 1 and alpha 3 at different developmental ages, while alpha 2 expression increased markedly between the neonate and adult. In adult brain, all three isozymes were found in all brain regions examined. We conclude that all three isozymes are expressed as proteins and that their expression and distribution must be under complex control. No single developmental age or macroscopic brain region provides an exclusive source of any of the isozymes.     

Changes in the pattern of protein synthesis during differentiation of the Ascomycete Sphaerostilbe repens

The vegetative mycelium of Sphaerostilbe repens Berkeley and Broome (strain CBS 275-60) gives rise, within 48 h, to aggregated organs composed of coremia and rhi-zomorphs. Developmental changes in polypeptide patterns were studied by one- and two-dimensional polyacrylamide gel electrophoresis after cells had been induced to undergo synchronized differentiation. One-dimensional gel electrophoresis revealed only minor changes during the morphogenesis. Of the 300 polypeptides resolved by two-dimensional gel electrophoresis, nearly 12% either increased or decreased during coremium and rhizomorph differentiation. Some polypeptides appeared to be unique to one or the other of the cell preparations and represented apparent qualitative differences. During the first 24 h of differentiation, about 20 polypeptide spots appeared, 6 were enhanced, 4 were reduced and 32 disappeared. Over the next 24 h changes in the population of proteins were less marked: 14 new proteins were revealed and 9 increased in intensity while 15 declined and 9 were no longer detectable. Five proteins which were present at a significant level only during the first stages of differentiation, may therefore, putatively be designated as aggregation-specific polypeptides.     

Proteins of Axial Organs of Dormant and Germinating Horse Chestnut Seeds: 1. General Characterization

This is the first characterization of proteins from axial organs of recalcitrant horse chestnut seeds during deep dormancy, dormancy release, and germination. We demonstrated that, during the entire period of cold stratification, axial organs were enriched in easily soluble albumin-like proteins and almost devoid of globulins. About 80% of the total protein was found in the cytosol. Approximately one third of cytosolic proteins were heat-stable polypeptides, which were major components of total proteins. Heat-stable proteins comprised three groups of polypeptides with mol wts of 52–54, 24–25, and 6–12 kD with a predominance of low-molecular-weight proteins. The polypeptide patterns of heat-stable and thermolabile proteins differed strikingly. Heat-stable proteins accumulated in axes during the late seed maturation, comprising more than 30% of the total protein in axes of mature seeds. The polypeptide patterns of the total protein of axial organs and its particular fractions did not change in the course of seed dormancy and release. At early germination, the content of heat-stable proteins in axes decreased and their polypeptide pattern changed both in the cytosol and cell structures. We believe that at least some heat-stable proteins can function as storage proteins in the axes. Localization of storage proteins in the cells of axial organs and the role of heat-stable proteins in recalcitrant seeds are discussed.     

Regulation of polypeptide synthesis during Caulobacter development: two-dimensional gel analysis.

The gram-negative bacterium Caulobacter crescentus progresses through three distinct morphological transitions, including both motile and nonmotile cell types, during its cell cycle. Assessment of the extent of regulation of polypeptide synthesis during these transitions was carried out with two-dimensional gel electrophoresis of whole-cell extracts. Synchronous cells were pulse-labeled with 14C-amino acids for 10-min intervals throughout the entire 2-h cell cycle. The radioactively labeled polypeptides were analyzed by two-dimensional polyacrylamide gel electrophoresis. Autoradiograms resulting from fluorography of the second dimension provided the detection of approximately 1,000 unique spots. The 600 predominant polypeptide spots, representing approximately 40% of the coding capacity of Caulobacter deoxyribonucleic acid, were analyzed for major changes in their synthetic rates. Quantitation by densitometric scanning of individual polypeptide spots represented on the sequential fluorograms demonstrated significant changes in the temporal synthesis of 6% of the polypeptides. Extracts from asynchronous cells were fractionated to obtain total-membrane and deoxyribonucleic acid-binding polypeptide fractions. Subsequent electrophoresis of these cellular fractions revealed approximately 100 membrane polypeptides and 25 deoxyribonucleic acid-binding polypeptides. Eight of the regulated polypeptides were identified as membrane or deoxyribonucleic acid-binding proteins. The regulated polypeptides can be grouped into three main categories based on their interval of synthesis. The three categories are in direct correlation with the three distinct cell cycle stages. This analysis has also revealed a unique transition period in the cell cycle in which a significant proportion of gene expression is regulated.     

Two-Dimensional Electrophoretic Studies of the Proteins and Polypeptides in Mature Pollen Grains and the Male Germ Unit of Plumbago zeylanica

Three fractions (male germ unit [MGU]-rich, cytoplasmic-particulate and water-soluble proteins) were isolated from pollen of Plumbago zeylanica L. Proteins were extracted using a phenol procedure and polypeptide patterns were compared on one- and two-dimensional polyacrylamide gels. The MGU-rich fraction contains the sperm and vegetative nucleus of the pollen grain and yielded 427 spots >33 kilodaltons. The cyto-plasmic-particulate fraction contained 515 spots >33 kilodaltons. The third fraction consisted of water-soluble proteins and polypeptides from the pollen cytoplasm, in which 285 spots (>33 kilodaltons) were identified. Of 133 polypeptide spots suitable for comparison, 18 were unique to the MGU-rich fraction, 3 to the cytoplasmic-particulate fraction, 14 to the water-soluble fraction, 65 were common to two different fractions (and absent in one), and 33 were common to all three of the fractions examined.     

Synthesis of Cytoskeletal Proteins in Bulk-Isolated Neuronal Perikarya Takashi Nakayama

Abstract: Neuronal perikarya were isolated from young rat brain by sucrose density gradient centrifugation of the tissue, dissociated with a low concentration of trypsin. The isolated cells retained their endogenous proteins, and were capable of active protein synthesis. After incubation with L-[³⁵S]methionine, perikarya were homogenised and separated into soluble and particulate fractions by centrifugation at 70,000 g. Newly synthesised polypeptides in each fraction were resolved by SDS-gel and two-dimensional gel electrophoresis coupled with fluorography. Neuronal perikarya synthesised predominantly actin, and α¹-, α² and β-tubulin. In addition, polypeptides with molecular weights of 35,000, 68,000 and 85,000 were heavily labelled. On two-dimensional electrophoresis, microheterogeneities were seen in soluble actin as well as in soluble tubulins, indicating that heterogeneities reported for brain actin and tubulins are inherent in neuronal actin and tubulins, but not owing to the heterogeneity of cells in the brain tissue. Structural differences between soluble tubulins and those associated with the particulate fraction were indicated by two-dimensional gel electrophoresis and also by one-dimensional peptide maps. The 68,000 molecular weight polypeptide synthesised in neuronal perikarya in vitro yielded a peptide map virtually identical with that generated from the major component of the neurofilament triplet polypeptides that were synthesised in situ. The 160,000 and 200,000 components of the neurofilament triplet were also synthesised in perikarya in vitro , but to disproportionately weaker extents compared with the 68,000 component.     

Differential Protein Composition and Gene Expression in Leaf Mesophyll Cells and Bundle Sheath Cells of the C(4) Plant Digitaria sanguinalis (L.) Scop

The distribution and molecular weights of cellular proteins in soluble and membrane-associated locations were analyzed using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Coomassie blue staining of leaf (Digitaria sanguinalis L. Scop.) extracts and isolated cell extracts. Leaf polypeptides also were pulse-labeled, followed by isolation of the labeled leaf cell types and analysis of the newly synthesized polypeptides in each cell type by electrophoresis and fluorography.

Comparison of the electrophoretic patterns of crabgrass whole leaf polypeptides with isolated cell-type polypeptides indicated a difference in protein distribution patterns for the two cell types. The mesophyll cells exhibited a greater allocation of total cellular protein into membrane-associated proteins relative to soluble proteins. In contrast, the bundle sheath cells exhibited a higher percentage of total cellular protein in soluble proteins. Phosphoenolpyruvate carboxylase was the major soluble protein in the mesophyll cell and ribulose bisphosphate carboxylase was the major soluble protein in the bundle sheath cell. The majority of in vivo³⁵S-pulse-labeled proteins synthesized by the two crabgrass cell types corresponded in molecular weight to the proteins present in the cell types which were detected by conventional staining techniques. The bundle sheath cell and mesophyll cell fluorograph profiles each had 15 major ³⁵S-labeled proteins. The major incorporation of ³⁵S by bundle sheath cells was into products which co-electrophoresed with the large and small subunits of ribulose bisphosphate carboxylase. In contrast, a major ³⁵S-labeled product in mesophyll cell extracts co-electrophoresed with the subunit of phosphoenolpyruvate carboxylase. Both cell types exhibited equivalent in vivo labeling of a polypeptide with one- and two-dimensional electrophoretic behavior similar to the major apoprotein of the light-harvesting chlorophyll a/b protein. Results from the use of protein synthesis inhibitors during pulse-labeling experiments indicated intercellular differences in both organelle and cytoplasmic protein synthesis. A majority of the ³⁵S incorporation by crabgrass mesophyll cell 70S ribosomes was associated with a pair of membrane-associated polypeptides of molecular weight 32,000 and 34,500; a comparison of fluorograph and stained gel profiles suggests these products resemble the precursor and mature forms of the maize chloroplast 32,000 dalton protein reported by Grebanier et al. (1978 J. Cell Biol. 28:734-746). In contrast, crabgrass bundle sheath cell organelle translation was directed predominantly into a product which co-electrophoresed with the large subunit of ribulose bisphosphate carboxylase.

     

Protein synthesis and transport in the regenerating goldfish visual system

The nature of the proteins synthesized in the goldfish retina and axonally transported to the tectum during optic nerve regeneration has been examined. Electrophoretic analysis of labeled soluble retinal proteins by fluorography verified our previous observation of a greatly enhanced synthesis of the microtubule subunits. In addition, labeling of a tubulin-like protein in the retinal particulate fraction was also increased during regeneration. Like soluble tubulin, the particulate material had an apparent MW of 53–55K and could be tyrosylated in the presence of cycloheximide and [³H]tyrosine. Comparison of post-crush and normal retinal proteins by two-dimensional gel electrophoresis also revealed a marked enhancement in the labeling of two acidic 68–70K proteins. Analysis of proteins slowly transported to the optic tectum revealed changes following nerve crush similar to those observed in the retina, with enhanced labeling of both soluble and particulate tubulin and of 68–70K polypeptides. The most striking change in the profile of rapidly transported protein was the appearance of a labeled 45K protein which was barely detectable in control fish.     

Stage-specific cuticular proteins of Ostertagia circumcincta and Ostertagia ostertagi

In this study we have shown that NHS-biotin and I¹²⁵-streptavidin can detect cuticular polypeptides of Ostertagia spp. The labelled polypeptide profile of intact nematodes is simple compared to the profile obtained by labelling homogenates. None of the major internal polypeptides are labelled and the subset of proteins labelled in intact nematodes appears to be mainly surface associated. The results presented here demonstrate that NHS-biotin may be used as a reagent for the analysis of surface polypeptides. The surface polypeptide profiles of the five major developmental stages (L1, L2, L3, L4 and adult) of Ostertagia circumcincta show a series of stage-specific molecules with no polypeptides common to all stages, indicating that the cuticle is a dynamic structure which changes throughout the life cycle. Similarity comparison of Ostertagia ostertagi L3 and L4 stage surface profiles showed that each stage is clearly distinct; comparison of these stages between the two species shows an overall similarity.     

Comparative Proteome Analysis of Human Temporal Cortex Lobes by Two-Dimensional Electrophoresis and Identification of Selected Common Proteins

Human brain proteins were isolated from left and right temporal cortex lobes at the age of 73, 23, 84 years and separated by two-dimensional gel electrophoresis (2-DE). 2-DE was carried out with an immobilized pH gradient strip in the first dimension and by sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the second dimension. Over 800 polypeptide spots were resolved with a silver-staining protocol by computerized 2-D gel analsis. Seven of the polypeptide spots were evidently distinguishable between human left and right temporal lobes. Four of the polypeptide spots were larger and three were smaller in human right temporal lobe. One of these three protein spots that have descendent expression in human right temporal lobe was identified as carbonyl reductase (NADPH) 1 by MALDI-TOF MS. Thirty-three common spots were identified by ESI-MS/MALDI-TOF MS/Edman sequencing and a protein database search. These identified proteins include some important enzymes and regulating proteins.     

Polypeptide analysis of genotypic variants of occluded Heliothis spp. baculoviruses

The structural polypeptides of 12 baculovirus isolates which included nuclear polyhedrosis viruses (NPVs) and granulosis viruses (GVs) obtained from four different species of the insect genus Heliothis collected in different geographical regions of the world were characterized using sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The matrix proteins were compared according to their molecular weights and peptide profiles produced after limited proteolysis. Examination of the matrix and virion polypeptide profiles revealed three major polypeptide phenotypes which corresponded to the three baculovirus morphological groups; singly embedded nuclear polyhedrosis viruses (SNPVs), multiply embedded nuclear polyhedrosis viruses (MNPVs), and granulosis viruses (GVs). Enveloped nucleocapsid polypeptide profiles of isolates within each NPV phenotype differed in only one polypeptide whereas the two GV isolates differed by as many as five polypeptides. Nucleocapsid polypeptide profiles of isolates within each of the NPV subgroups were identical while those profiles from the GV nucleocapsids differed slightly in molecular weight of one polypeptide.