Comparative studies on fraction 1 protein from spinach and tobacco leaves

Fraction 1 protein of spinach and tobacco leaves was purifiedby Sephadex G-200 and DEAE-cellulose column chromatography.Immunological comparison of purified preparations of these proteinswas carried out with precipitin analysis using an antiserumof tobacco fraction 1 protein. Two different antigenic activitieswere found in tobacco fraction 1 protein, of which one was commonlyfound in the spinach protein and the other was specific to tobaccofraction 1 protein. The immunological results suggest that fraction 1 protein iscomposed of at least two different structures, one of whichis common to both spinach and tobacco proteins and the otherof which is specific to each of these proteins. This was confirmedfrom a chemical experiment. Fraction 1 protein was divided intolarge and small polypeptide components by sodium dodecyl sulfatetreatment and subsequent Sephadex G-100 column chromatography,then the amino acid compositions of each polypeptide of theseproteins were compared. The amino acid composition of the smallpolypeptide of spinach was different from that of tobacco, whileamino acid compositions of the large polypeptides of those proteinswere similar to each other. (Received July 1, 1968; )     

Identification and characterization of a novel mammalian intermediate filament-associated protein

A novel monoclonal antibody, designated M1.4, recognizes the high molecular weight microtubule-associated protein MAP1A (ca. Mr 380 kD) in both bovine and rat brain. In HeLa cells, however, M1.4 binds to a 240 kD polypeptide on immunoblots and co-localizes with both vimentin and cytokeratin filaments using double-label immunofluorescence microscopy. Immunoelectron microscopy indicates that the 240 kD polypeptide localizes along bundled intermediate filaments in a periodic manner. Two-dimensional electrophoretic analysis indicates that the 240 kD polypeptide has a basic pI of 7.7. When HeLa cell intermediate filaments are isolated using standard non-ionic detergent/high-salt conditions the 240 kD polypeptide does not sediment with the intermediate filaments, unlike the established intermediate filament-associated protein plectin. Immunoblot analysis with M1.4 shows the 240 kD polypeptide is expressed in a number of mammalian cell lines. Additionally, double-label immunofluorescence shows the 240 kD polypeptide to associate with vimentin filaments in African Green Monkey kidney (CV-1) and JC neuroblastoma cells. Due to its unique biochemical and biological characteristics, the 240 kD polypeptide is clearly a novel intermediate filament-associated protein for which we have proposed the designation gyronemin (Gr. gyros: around; nemin: filament).     

Purification and expression of a protein elicitor from Alternaria tenuissima and elicitor-mediated defence responses in tobacco

A new protein elicitor, PeaT1, was purified from the mycelium of Alternaria tenuissima by column chromatography. PeaT1 was identified as a heat-stable and acidic protein. It induced systemic acquired resistance to tobacco mosaic virus (TMV) in tobacco plants but did not cause hypersensitive response. The elicitor-encoding gene was cloned by rapid amplification of cDNA ends method. Sequence analysis revealed that the cDNA is 624 bp in length and the open reading frame encodes for a polypeptide of 207 amino acids with a nascent polypeptide-associated complex domain. The peaT1 gene was cloned into the expression vector pET-28a and transformed into Escherichia coli BL21 (DE3). The recombinant elicitor also triggered defence responses in intact tobacco plants. The availability of the pure protein offers the possibility to isolate the corresponding receptor and links it to the downstream signalling pathway.     

<Emphasis Type="Italic">Arabidopsis</Emphasis> dynamin-related protein DRP2B is co-localized with DRP1A on the leading edge of the forming cell plate

The Arabidopsis genome has six families of dynamin-related proteins. One of these families includes DRP2A and DRP2B. The domain structures of proteins of this family are most similar to those of the animal endocytosis protein, dynamin. In this study, the signals of GFP-tagged DRP2B were strongly detected in the cell plate of Arabidopsis root tip cells and tobacco cultured cells. Time-lapse observations of these signals during cytokinesis in tobacco cultured cells suggested that DRP2B mainly localized to the newly formed part of the cell plate, and that the localization dynamics of DRP2B was quite similar to that of DRP1A, which is an Arabidopsis dynamin-related protein that is closely related to soybean phragmoplastin. These results indicate that Arabidopsis dynamin-related proteins, DRP1A and DRP2B, from two different families, participate in membrane remodeling at a similar place in the cell plate.     

Molecular cloning and characterization of cDNA coding for beta1, 2N-acetylglucosaminyltransferase I (GlcNAc-TI) from Nicotiana tabacum.

In plants as well as in animals beta1, 2N-acetylglucosaminyltransferase I (GlcNAc-TI) is a Golgi resident enzyme that catalyzes an essential step in the biosynthetic pathway leading from oligomannosidic N-glycans to complex or hybrid type N-linked oligosaccharides. Employing degenerated primers deduced from known GlcNAc-TI genes from animals, we were able to identify the cDNA coding for GlcNAc-TI from a Nicotiana tabacum cDNA library. The complete nucleotide sequence revealed a 1338 base pair open reading frame that codes for a polypeptide of 446 amino acids. Comparison of the deduced amino acid sequence with that of already known GlcNAc-TI polypeptides revealed no similarity of the tobacco clone within the putative cytoplasmatic, transmembrane, and stem regions. However, 40% sequence similarity was found within the putative C-terminal catalytic domain containing conserved single amino acids and peptide motifs. The predicted domain structure of the tobacco polypeptide is typical for type II transmembrane proteins and comparable to known GlcNAc-TI from animal species. In order to confirm enzyme activity a truncated form of the protein containing the putative catalytic domain was expressed using a baculovirus/insect cell system. Using pyridylaminated Man(5)- or Man(3)GlcNAc(2)as acceptor substrates and HPLC analysis of the products GlcNAc-TI activity was shown. This demonstrates that the C-terminal region of the protein comprises the catalytic domain. Expression of GlcNAc-TI mRNA in tobacco leaves was detected using RT-PCR. Southern blot analysis gave two hybridization signals of the gene in the amphidiploid genomes of the two investigated species N. tabacum and N.benthamiana.     

Mapping the interaction of cofilin with subdomain 2 on actin

Cofilin, a member of the actin-depolymerizing factor (ADF)/cofilin family of proteins, is a key regulator of actin dynamics. Cofilin binds to monomer (G-) and filamentous (F-) actin, severs the filaments, and increases their turnover rate. Electron microscopy studies suggested cofilin interactions with subdomains 2 and 1/3 on adjacent actin protomers in F-actin. To probe for the presence of a cryptic cofilin binding site in subdomain 2 in G-actin, we used transglutaminase-mediated cross-linking, which targets Gln41 in subdomain 2. The cross-linking proceeded with up to 85% efficiency with skeletal alpha-actin and WT yeast actin, yielding a single product corresponding to a 1:1 actin-cofilin complex but was strongly inhibited in Q41C yeast actin (in which Q41 was substituted with cysteine). LC-MS/MS analysis of the proteolytic fragments of this complex mapped the cross-linking to Gln41 on actin and Gly1 on recombinant yeast cofilin. The actin-cofilin (AC) heterodimer was purified on FPLC for analytical ultracentrifugation and electron microscopy analysis. Sedimentation equilibrium and velocity runs revealed oligomers of AC in G-actin buffer. In the presence of excess cofilin, the covalent AC heterodimer bound a second cofilin, forming a 2:1 cofilin/actin complex, as revealed by sedimentation results. Under polymerizing conditions the cross-linked AC formed mostly short filaments, which according to image reconstruction were similar to uncross-linked actin-cofilin filaments. Although a majority of the cross-linking occurs at Gln41, a small fraction of the AC cross-linked complex forms in the Q41C yeast actin mutant. This secondary cross-linking site was sequenced by MALDI-MS/MS as linking Gln360 in actin to Lys98 on cofilin. Overall, these results demonstrate that the region around Gln41 (subdomain 2) is involved in a weak binding of cofilin to G-actin.     

Cys/Gly-rich proteins with a putative single chitin-binding domain from oat (Avena sativa) seeds

Through a reliable and repeatable procedure based on solid-phase extraction techniques, a protein fraction (P fraction) rich in Cys/Gly residues was extracted and captured from oat (Avena sativa L.) seeds. Quantitative amino acid analysis and MS of the P fraction indicated that it contains a series of heterogeneous Cys/Gly-rich proteins with molecular masses of 3.6-4.0 kDa. Preliminary results from bioassays showed that these proteins possess weak to moderate antifungal properties to some fungal strains. From this fraction, a new polypeptide, designated avesin A, was purified and sequenced by Edman degradation. Avesin A consists of 37 amino-acid residues, with 10 glycine residues and eight cysteine residues forming disulfide bridges, and contains a single chitin-binding domain, which indicates that avesin A is a new member of the putative chitin-binding proteins. Avesin A is the first identified hevein-like small protein from cereal grains.     

Proteomic analysis of bovine conceptus fluids during early pregnancy

A proteomic analysis of bovine amniotic and allantoic fluids collected around Day 45 of gestation was performed using gel-based and LC-based MS workflows. A depletion/enrichment protocol using ultrafiltration under denaturing and reducing conditions produced an enriched fraction containing protein species predominantly between 5 and 50 kDa molecular weight. The analyses of conceptus fluid proteins were performed using two strategies; first, 2-DE coupled with MALDI-TOF-MS/MS and LC-ESI-MS/MS analysis of individual protein spots and second, a global protein snapshot of the enriched 5-50 kDa protein fraction by LC-ESI-MS/MS and LC-MALDI-TOF-MS/MS. Allocation of bovine specific protein identities was achieved by searching the Interactive Bovine In Silico SNP (IBISS) and NCBInr protein sequence databases resulting in the confident PMF identification and MS/MS confirmation of >200 2-DE generated allantoic fluids protein spots (74 individual protein species identified) and the MS/MS peptide identification of 105 LC-ESI-MS/MS generated protein identities. In total, the identity of 139 individual protein species from allantoic fluids was confirmed with peptide sequence probability MOWSE scores at the p<0.05 level or better. The comparison of bovine Day 45 amniotic and allantoic fluids protein profiles revealed differences between these two conceptus fluids in early pregnancy.     

Expression of soybean nodulin 26 in transgenic tobacco. Targeting to the vacuolar membrane and effects on floral and seed development.

Nodulin 26 is an integral membrane protein of the symbiosome membrane of nitrogen-fixing soybean nodules. We expressed a nodulin 26 cDNA in transgenic tobacco (TN26 tobacco) under the control of the cauliflower mosaic virus 35S promoter to study subcellular targeting and the physiological effect(s) of its expression. Based on Northern and Western blots, the expression of nodulin 26 mRNA and protein in transgenic plants is high in apical shoot sections, flowers, and stems, low in mature leaves, and absent in roots. Western blot analysis revealed high levels of transgenic nodulin 26 protein in tonoplast membranes. In contrast, nodulin 26 protein was not found in isolated plasma membranes, the soluble fraction, nor in chloroplast and mitochondria-enriched membrane fractions. About 50-60% of the flowers and pods from TN26 tobacco plants abscised prematurely. Seed capsule size and seed fill per capsule from the remainder of surviving flowers were about 50% of that of control plants. Pollen viability was found to be normal, but flowers from TN26 tobacco plants showed shorter anther filaments compared with control plants. Normal seed production and capsule size was restored by manually crossing the stigmas from TN26 plants with isolated pollen from either transgenic or control plants. Thus, the aberrant filament growth could have resulted in the reproductive defects associated with the plants.     

Isolation of a novel 190 kDa protein from tobacco BY-2 cells: possible involvement in the interaction between actin filaments and microtubules

Interaction between actin filaments (AFs) and microtubules (MTs) has been reported in various plant cells, and the presence of a factor(s) connecting these two cytoskeletal networks has been suggested, but its molecular entity has not been elucidated yet. We obtained a fraction containing MT-binding polypeptides, which induced bundling of AFs and of MTs. A 190 kDa polypeptide which associated with AFs was selectively isolated from the fraction. This polypeptide was thought to have an ability to bind to both AFs and MTs. We raised a monoclonal antibody against the 190 kDa polypeptide. Immunostaining demonstrated the association of the 190 kDa polypeptide with AF bundles and with MT bundles formed in vitro. Immunocytochemical studies throughout the cell cycle revealed that the 190 kDa polypeptide was localized in the nucleus before nuclear envelope breakdown, and in the spindle and the phragmoplast during cell division. After the re-formation of the nuclear envelope, the 190 kDa polypeptide was sequestered to the daughter nuclei. Using the antibody, we succeeded in cloning a cDNA encoding the 190 kDa polypeptide.     

Proteomic and biochemical evidence links the callose synthase in Nicotiana alata pollen tubes to the product of the NaGSL1 gene

The NaGSL1 gene has been proposed to encode the callose synthase (CalS) enzyme from Nicotiana alata pollen tubes based on its similarity to fungal 1,3-beta-glucan synthases and its high expression in pollen and pollen tubes. We have used a biochemical approach to link the NaGSL1 protein with CalS enzymic activity. The CalS enzyme from N. alata pollen tubes was enriched over 100-fold using membrane fractionation and product entrapment. A 220 kDa polypeptide, the correct molecular weight to be NaGSL1, was specifically detected by anti-GSL antibodies, was specifically enriched with CalS activity, and was the most abundant polypeptide in the CalS-enriched fraction. This polypeptide was positively identified as NaGSL1 using both MALDI-TOF MS and LC-ESI-MS/MS analysis of tryptic peptides. Other low-abundance polypeptides in the CalS-enriched fractions were identified by MALDI-TOF MS as deriving from a 103 kDa plasma membrane H+-ATPase and a 60 kDa beta-subunit of mitochondrial ATPase, both of which were deduced to be contaminants in the product-entrapped material. These analyses thus suggest that NaGSL1 is required for CalS activity, although other smaller (<30 kDa) or low-abundance proteins could also be involved.     

Cytoskeletal proteins at the cholinergic synapse: distribution of desmin, actin, fodrin, neurofilaments, and tubulin in Torpedo electric organ

Treatment of the electric organ of Torpedo marmorata with Triton X-100 in the presence of 2 mM MgCl2 generated a cytoskeletal fraction in which a 54 kDa polypeptide is a major constituent. This 54 kDa polypeptide accounted for about 8% of the cellular protein when total electric organ tissue was analyzed by two-dimensional gel electrophoresis. Immunoblotting experiments showed that this protein reacts with monoclonal antibodies to desmin, the major intermediate filament protein of avian and mammalian muscle tissue. Negative stain analysis revealed that filaments of about 10 nm diameter are the major structural elements of the electric organ cytoskeleton. In the presence of Ca2+ there was a rapid degradation of the desmin-like protein and intermediate filaments due to a Ca2+-activated protease. Some of the resulting fragments retained antigenic activity against the desmin antibodies. Immunoblotting of membrane fractions enriched in acetylcholine receptor revealed desmin in addition to some actin. A further cytoskeletal component was identified from biochemical and immunological properties as a homologue of the mammalian neurofilament L-polypeptide. Thus Torpedo expresses proteins homologous to the mammalian desmin and neurofilament L-protein which can be detected using immunological approaches. Immunofluorescence microscopy was used to map the location of various cytoskeletal proteins of the cholinergic synapse on paraffin sections and on en face preparations of membranes. Desmin staining was restricted to electrocytes and in en face preparations was seen associated with both the ventral receptor-containing membrane and with the non-innervated dorsal membrane. Antibodies to neurofilament L-protein stained only the axons and not the electrocytes. Staining for fodrin, a non-erythrocyte spectrin, resulted in submembraneous decoration of both the axons and the electrocytes. Axonal staining for neurofilaments and microtubules did not extend into the ends of the nerve terminal arborizations.     

Purification and characterization of a high-molecular-weight protein induced in rat serum during the development of cardiac hypertrophy

A relatively high-molecular-weight polypeptide was found in rat serum within 6 h after aortic constriction in experimental animals. This polypeptide persists for about 7 days of the postoperative period and disappears at later stage of hypertrophy (40%). Further, fractionation and purification of this protein through DEAE-Sepharose and gel filtration chromatography have revealed that this protein is a single polypeptide and its relative molecular weight is 135 kDa. Immunoprecipitation and immunofluorescence microscopic analysis have indicated the presence of the above polypeptide in the nuclear fraction of heart cells. Studies on phosphorylation in vitro have revealed that this protein is a phosphoprotein. DNase I sensitivity and hybridization using a muscle specific gene probe have indicated the involvement of this protein in template associated changes in heart nuclei. Further the possibility of this protein being synthesized by heart cells indicates that this protein could traverse back and forth between heart cells and the extracellular fluid, suggesting an autocrine/paracrine role for this protein during the development of cardiac hypertrophy.     

A high molecular weight actin binding protein: Its localization in the cortex of the sea urchin egg

From the Triton-treated cortex fraction of sea urchin eggs, a high molecular weight actin binding protein (260K protein) was solubilized by a high salt solution and purified. A cosedimentation assay revealed that the 260K protein binds to actin filaments in a concentration-dependent manner. The low-shear viscosity of actin solutions largely increased in a concentration-dependent manner after addition of 260K protein. Electron microscopy showed that this protein induces the formation of large curled bundles of actin filaments. Different from fascin-induced actin bundles, no clear striations were observed within the actin bundles formed by the 260K protein. Antibodies against the 260K protein were raised in a rabbit and affinity purified. Immunoblotting analysis of Triton-solubilized cortex and various subcellular fractions showed that first only a single band reacted with the antibody and second that the 260K protein exclusively localized in the cortex fraction. Indirect immunofluorescence microscopy localized the protein in the cortex and the region of the cleavage furrow. After double staining, the fluorescence images for actin filaments and the 260K protein well correlate with each other.     

A ferredoxin-type iron-sulfur protein gene,frx B,is expressed in the chloroplasts of tobacco and spinach

Previously, a ferredoxin-type iron-sulfur protein, frx B protein, was identified in a high-salt extract of the purified thylakoid membrane of Chlamydomonas reinhardtii, a unicellular green alga. Polyclonal antibody was raised against a synthetic pentadecameric peptide with an amino acid sequence corresponding to the highly conserved region of the putative frx B proteins of 3 land plants [21]. In this report, protein(s) reacting strongly and specifically with this antibody was detected in the equivalent high-salt extract prepared from purified chloroplast of spinach and tobacco. One strong reaction polypeptide band from tobacco chloroplast was purified from SDS-polyacrylamide gel and subjected to endoproteinase lys C digestion. The resulting polypeptides were separated by reversed-phase chromatography. N-terminal sequencing of 3 purified polypeptides revealed that the protein is encoded by the frxB gene identified from DNA sequence analysis.     

A soluble auxin-binding protein from Hyoscyamus muticus is a glutathione S-transferase.

We have used the photoaffinity label azido-[3H]IAA (5-N3-[7-3H]indole-3-acetic acid), a biologically active analog of indole-3-acetic acid, to identify auxin-binding proteins (ABPs) in the soluble fraction of Hyoscyamus muticus. A 25-kD polypeptide previously described (H. Macdonald, A. M. Jones, P. J. King [1991] J Biol Chem 266: 7393-7399) has now been purified to homogeneity by conventional methods. Binding of azido-[3H]IAA to the purified protein was reduced by active auxins but not by inactive indoles. Partial amino acid sequences of the purified protein showed high homology to glutathione S-transferase (GST) from tobacco (ParB) and from maize (GT32). The conclusion that the 25-kD ABP is a GST is further supported by high GST activity in fractions highly enriched in the 25-kD polypeptide and recognition of the ABP by antibodies against GST from wheat and maize. Furthermore, purification of a protein from a soluble protein extract from H. muticus by affinity chromatography on glutathione-agarose also yielded a 25-kD polypeptide that was indistinguishable in its N-terminal amino acid sequence and biochemical characteristics from the protein purified by conventional methods. Possible functions of GST in auxin action are discussed.     

Stress-related RNase PR-10c is post-translationally modified by glutathione in birch

The PR‐10c (previously termed as Bet v 1‐Sc3) protein of birch belongs to the family of intracellular pathogenesis‐related proteins. The high‐performance liquid chromatography electrospray ionization ion trap mass spectrometry (HPLC‐ESI‐MS) analysis of PR‐10c‐His fusion protein, produced in Escherichia coli, revealed three major peaks and masses. Enzymatic digestions and HPLC‐ESI‐MS and matrix assisted laser desorption/ionization – time of flight mass spectrometry (MALDI‐TOF‐MS) analyses of each fraction indicated that PR‐10c‐His protein is post‐translationally modified by carbamylation and S‐glutathiolation. Carbamylation was localized into the N‐terminal end of PR‐10c‐His and does not represent a biologically significant modification. The possible nuclease activity of PR‐10c was analysed with S‐glutathiolated and reduced fractions of PR‐10c‐His fusion protein. Both forms of PR‐10c‐His as well as the dimeric form of the protein possess RNase activity which is capable of digesting different RNA substrates. None of the fractions showed activity against single‐ or double‐stranded DNA. The MALDI‐TOF‐MS analysis of PR‐10c polypeptide extracted from zinc‐exposed birch roots showed that the protein is post‐translationally modified by glutathione (γ‐Glu‐Cys‐Gly) also in vivo. The S‐glutathiolated cysteine residue of PR‐10c is not conserved among Bet v 1 homologous proteins and is also unique in the PR‐10 family. As far as we know this is the first observation of S‐glutathiolation in plants, or any post‐translational modification in the PR‐10 family of proteins.     

A DREPP protein interacted with PeaT1 from <Emphasis Type="Italic">Alternaria tenuissima</Emphasis> and is involved in elicitor-induced disease resistance in <Emphasis Type="Italic">Nicotiana</Emphasis> plants

PeaT1 is a proteinaceous elicitor from fungal pathogen Alternaria tenuissima. Our previous research revealed that this elicitor could induce defense response and enhance disease resistance in various plants including Nicotiana plants. However, immune activation mechanisms whereby PeaT1 elicits defense response remain unclear. In this study, the association between elicitor protein PeaT1 and the plasma membrane was assessed using the FITC (Fluorescein isothiocyanate) labeling method. A PeaT1-interacting protein was isolated via ¹²⁵I-PeaT1 cross-linking and Far Western blot analyses, and designated PtBP1 (PeaT1 Binding Protein 1). From the data of Mass spectrometry (MS) and bioinformatics analysis, the 22 kDa plasma membrane protein PtBP1 was inferred to be a member of DREPP (developmentally regulated plasma membrane polypeptide) family that is induced in plants under stress conditions and might get involved in downstream signaling. For further verification of this association, Far Western blot, co-immunoprecipitation and bimolecular fluorescence complementation (BiFC) analyses were performed, showing PtBP1 could bind with PeaT1 in vitro and in vivo. Virus-induced gene silencing (VIGS) analysis exhibited that PtBP1 silencing in Nicotiana benthamiana attenuated tobacco mosaic virus (TMV) resistance compared to the tobacco rattle virus (TRV) control after PeaT1 treatment.     

Rearrangement of Actin Cytoskeleton by Zika Virus Infection Facilitates Blood–Testis Barrier Hyperpermeability

In recent years,various serious diseases caused by Zika virus (ZIKV) have made it impossible to be ignored.Confirmed existence of ZIKV in semen and sexually transmission of ZIKV suggested that it can break the blood–testis barrier (BTB),or Sertoli cell barrier (SCB).However,little is known about the underlying mechanism.In this study,interaction between actin,an important component of the SCB,and ZIKV envelope (E) protein domain Ⅲ (EDⅢ) was inferred from coimmunoprecipitation (Co-IP) liquid chromatography–tandem mass spectrometry (LC–MS/MS) analysis.Confocal microscopy confirmed the role of actin filaments (F-actin) in ZIKV infection,during which part of the stress fibers,the bundles that constituted by paralleled actin filaments,were disrupted and presented in the cell periphery.Colocalization of E and reorganized actin filaments in the cell periphery of transfected Sertoli cells suggests a participation of ZIKV E protein in ZIKV-induced F-actin rearrangement.Perturbation of F-actin by cytochalasin D (CytoD) or Jasplakinolide (Jas)enhanced the infection of ZIKV.More importantly,the transepithelial electrical resistance (TEER) of an in vitro mouse SCB (mSCB) model declined with the progression of ZIKV infection or overexpression of E protein.Co-IP and confocal microscopy analyses revealed that the interaction between F-actin and tight junction protein ZO-1 was reduced after ZIKV infection or E protein overexpression,highlighting the role of E protein in ZIKV-induced disruption of the BTB.We conclude that the interaction between ZIKV E and F-actin leads to the reorganization of F-actin network,thereby compromising BTB integrity.     

Immunological detection of the messenger RNA cap-binding protein

The 24-kilodalton messenger RNA cap-binding protein (CBP) was purified from the rabbit reticulocyte postribosomal supernatant fraction using an affinity resin consisting of the p-aminophenyl gamma-ester of m7GTP coupled to Sepharose. The affinity-purified CBP was used to raise a goat antiserum. Anti-CBP antibodies were purified by adsorption to CBP coupled to either Controlled-Pore Glass or diazobenzyloxymethyl paper. The affinity-purified antibodies reacted specifically with only the 24-kilodalton polypeptide in whole reticulocyte lysate and in initiation factors prepared from the same source. During a conventional (nonaffinity) purification of CBP from a high salt extract of the ribosomal pellet, immunological reactivity paralleled the ability to reverse cap analogue inhibition of translation, indicating that the 24-kilodalton polypeptide present in the postribosomal supernatant fraction is immunologically cross-reactive with the CBP purified from ribosomes. Fractionation of whole reticulocyte lysate by sucrose gradient sedimentation followed by immunoblotting revealed that CBP was present in the supernatant fraction and the region of the gradient corresponding to ribosomal subunits but not in mono- or polysomes. The CBP to ribosome ratio was found to be approximately 0.02, assuming that the m7GTP-Sepharose retains all of the protein. This is considerably lower than that of other initiation factors and suggests that CBP may be the limiting polypeptide factor involved in the initiation of protein synthesis. The antibodies also inhibited the translation of a capped messenger RNA (globin). Inhibition of the translation of an uncapped RNA (satellite tobacco necrosis virus) was also observed, but to a lesser degree than with globin mRNA.