A lipase-inhibiting protein from lipoxygenase-deficient soybean seeds

A lipase-inhibiting protein was isolated from lipoxygenase (LOX)-deficient soybean seeds. The molecular mass of the protein was 56.0-kDa and the N-terminal amino acid was blocked. The protein was identified by peptide mass fingerprinting in combination with matrix-assisted laser desorption ionization/time-of-flight mass spectrometry. The masses of the lysyl endopeptidase-digested peptides of the 56.0-kDa inhibiting protein were almost identical to the calculated masses of the theoretically predicted lysyl endopeptidase-treated peptides of beta-amylase from soybean seed. In a previous paper (Biosci. Biotechnol. Biochem., 62, 1498-1503, 1998), we reported that LOX-1, an isozyme of soybean seed LOX, inhibited hydrolysis of soybean oil by pancreatic lipase. Purified beta-amylase also inhibited lipase activity, although the magnitude of inhibition was weaker than that by LOX-1. Thus, there are at least two lipase-inhibiting proteins, one is a LOX and the other is a beta-amylase, in soybean seed.     

Partial amino acid sequences around sulfhydryl groups of soybean beta-amylase

Sulfhydryl (SH) groups of soybean beta-amylase were modified with 5-(iodoaceto-amidoethyl)aminonaphthalene-1-sulfonate (IAEDANS) and the SH-containing peptides exhibiting fluorescence were purified after chymotryptic digestion of the modified enzyme. The sequence analysis of the peptides derived from the modification of all SH groups in the denatured enzyme revealed the existence of six SH groups, in contrast to five reported previously. One of them was found to have extremely low reactivity toward SH-reagents without reduction. In the native state, IAEDANS reacted with 2 mol of SH groups per mol of the enzyme (SH1 and SH2) accompanied with inactivation of the enzyme owing to the modification of SH2 located near the active site of this enzyme. The selective modification of SH2 with IAEDANS was attained after the blocking of SH1 with 5,5'-dithiobis-(2-nitrobenzoic acid). The amino acid sequences of the peptides containing SH1 and SH2 were determined to be Cys-Ala-Asn-Pro-Gln and His-Gln-Cys-Gly-Gly-Asn-Val-Gly-Asp-Ile-Val-Asn-Ile-Pro-Ile-Pro-Gln-Trp, respectively.     

Primary structure and differential expression of beta-amylase in normal and mutant barleys

The primary structure of barley endosperm beta-amylase, an enzyme which catalyses the liberation of maltose from 1,4-alpha-D-glucans, has been deduced from the nucleotide sequence of a cloned full-length cDNA. The mRNA is 1754 nucleotides long [excluding the poly(A) tail] and codes for a polypeptide of 535 amino acids with a relative molecular mass of 59,663. The deduced amino acid sequence was compared with the sequences of ten peptides obtained from the purified enzyme and unambiguous identification was obtained. The N-terminal region of the deduced sequence was identical to a 12-residue cyanogen-bromide-peptide sequence, indicating that beta-amylase is synthesized as the mature protein. A graphic matrix homology plot shows four glycine-rich repeats, each of 11 residues, preceding the C-terminus. Southern blotting of genomic DNA demonstrates that beta-amylase is encoded by a small gene family, while cDNA sequence analysis indicates the presence of at least two types of mRNA in the endosperm. Dot and northern blot analysis show that Hiproly barley contains greatly increased levels of beta-amylase mRNA compared to the normal cultivar Sundance, whereas Ris? mutant 1508 contains only trace amounts. These results correlate well with the deposition of beta-amylase during endosperm development in these lines. Low but similar amounts of beta-amylase mRNAs sequences were detected in leaves and shoots from normal and mutant barleys, demonstrating that the mutant lys3a (1508) and lysl (Hiproly) genes do not affect the expression of beta-amylase in these tissues.     

Cloning and sequencing of the gene encoding thermophilic beta-amylase of Clostridium thermosulfurogenes.

A gene coding for thermophilic beta-amylase of Clostridium thermosulfurogenes was cloned into Bacillus subtilis, and its nucleotide sequence was determined. The nucleotide sequence suggested that the thermophilic beta-amylase is translated from monocistronic mRNA as a secretory precursor with a signal peptide of 32 amino acid residues. The deduced amino acid sequence of the mature beta-amylase contained 519 residues with a molecular weight of 57,167. The amino acid sequence of the C. thermosulfurogenes beta-amylase showed 54, 32, and 32% homology with those of the Bacillus polymyxa, soybean, and barley beta-amylases, respectively. Twelve well-conserved regions were found among the amino acid sequences of the four beta-amylases. To elucidate the mechanism rendering the C. thermosulfurogenes beta-amylase thermophilic, its amino acid sequence was compared with that of the B. polymyxa beta-amylase. The C. thermosulfurogenes beta-amyulase contained more Cys residues and fewer hydrophilic amino acid residues than the B. polymyxa beta-amylase did. Several regions were found in the amino acid sequence of the C. thermosulfurogenes beta-amylase, where the hydrophobicity was remarkably high as compared with that of the corresponding regions of the B. polymyxa beta-amylase.     

Cloning of the beta-amylase gene from Bacillus cereus and characteristics of the primary structure of the enzyme.

The gene encoding the beta-amylase of Bacillus cereus BQ10-S1 (SpoII) was cloned into Escherichia coli JM 109. A sequenced DNA fragment of 2,001 bp contains the beta-amylase gene. The N-terminal sequences (AVNGKG MNPDYKAYLMAPLKKI), the C-terminal sequences (SHTSSW), and the amino acid sequences of the five regions in the beta-amylase molecules were determined. The mature beta-amylase contains 514 amino acid residues with a molecular mass of 57,885 Da. The amino acid sequence homology with those of known beta-amylases was 52.7% for Bacillus polymyxa, 52.0% for Bacillus circulans, 43.4% for Clostridium thermosulfurogenes, 31.8% for Arabidopsis thaliana, 31.5% for barley, 29.9% for sweet potato, and 28.9% for soybean. Ten well-conserved regions were found between the N terminus and the area around residue 430, but the C-terminal region of 90 residues has no similarity with those of the plant beta-amylases. The homology search revealed that this C-terminal region has homology with C-terminal regions of the beta-amylase from C. thermosulfurogenes, some bacterial alpha-amylases, cyclodextrin glucanotransferase, and glucoamylase. Some of these sequences are known as the raw-starch-binding domain. These results suggest that B. cereus beta-amylase has an extra domain which has raw-starch-binding ability and that the domain has considerable sequence homology with those of other amylases or related enzymes from a wide variety of microorganisms.     

Amino acid sequence of the N-terminal domain of yam (Dioscorea japonica) aerial tuber acidic chitinase. Evidence for the presence of a wheat germ agglutinin domain in matured acidic chitinase from unstressed tuber

The amino acid sequence of the N-terminal domain of acidic chitinase from unstressed aerial tuber was determined and proved the presence of an N-terminal domain in acidic chitinase. The amino acid sequence was determined on a pyroglutamylaminopeptidase-treated N-terminal fragment of V8 protease and on chymotryptic peptides of this fragment. The sequence determined revealed 8 residues deletion and 2 residues insertion as compared with the N-terminal domain of tobacco basic chitinase. The N-terminal domain determined showed a homology of 40% and 52% with the N-terminal domain of tobacco basic chitinase and wheat germ agglutinin, respectively.Abbreviations DABITC,4-N,N dimethylaminoazobenzene 4-isothiocyanate - PITC phenylisothiocyanate - Cm carboxymethyl - WGA wheat germ agglutinin - TFA trifluoroacetic acid - PGAP pyroglutamylaminopeptidase     

Detection of DBD-carbamoyl amino acids in amino acid sequence and D/L configuration determination of peptides with fluorogenic Edman reagent 7-[(N,N-dimethylamino)sulfonyl]-2,1,3-benzoxadiazol-4-yl isothiocyanate.

A method for amino acid sequence and D/L configuration identification of peptides by using fluorogenic Edman reagent 7-[(N, N-dimethylamino)sulfonyl]-2,1,3-benzoxadiazol-4-yl isothiocyanate (DBD-NCS) has been developed. This method was based on the Edman degradation principle with some modifications. A peptide or protein was coupled with DBD-NCS under basic conditions and then cyclized/cleaved to produce DBD-thiazolinone (TZ) derivative by BF3, a Lewis acid, which could significantly suppress the amino acid racemization. The liberated DBD-TZ amino acid was hydrolyzed to DBD-thiocarbamoyl (TC) amino acid under a weakly acidic condition and then oxidized by NaNO2/H+ to DBD-carbamoyl (CA) amino acid which was a stable and had a strong fluorescence intensity. The individual DBD-CA amino acids were separated on a reversed-phase high-performance liquid chromatography (RP-HPLC) for amino acid sequencing and their enantiomers were resolved on a chiral stationary-phase HPLC for identifying their D/L configurations. Combination of the two HPLC systems, the amino acid sequence and D/L configuration of peptides could be determined. This method will be useful for searching D-amino-acid-containing peptides in animals.     

抗吗啡活性肽的分离纯化及一级结构测定

报道了一种新的具有抗吗啡镇痛活性的肽的分离纯化,并进行部分一级结构测定．狗脑先经醋酸提取,冷冻成干粉,然后上ＳｅｐｈａｄｅｘＧ－５０和Ｓ－ＳｅｐｈａｒｏｓｅＦ．Ｆ柱,最后经ＲＰ－ＨＰＬＣ纯化,鉴定纯度后,测定其抗吗啡镇痛活性,通过ＳＤＳ－ＰＡＧＥ法测得其分子量为８．９ｋＤ．氨基酸序列分析测得该肽的Ｎ端序列为：Ｖ－Ｉ－Ｓ－Ｖ－Ａ－Ｄ－Ｗ－Ｔ－Ｑ－Ｉ－Ｆ－Ｔ－Ｍ－Ｒ－Ｙ－Ｆ－Ｉ－Ｔ－Ｇ－Ｙ－Ｈ－Ｑ－Ｄ－Ｙ－Ｘ－Ｇ－Ｌ－Ｈ－Ｉ－Ｇ．经部分一级结构同源序列检索,未见与此有同源的蛋白质的报道,暂命名该肽为ＣＣ４肽     

坚强芽孢杆菌β-淀粉酶基因的核苷酸序列分析

淀粉水解酶广泛用于淀粉加工业中,何秉旺等在选育产耐热β-淀粉酶菌株中得到一株坚强芽孢杆菌（Bacillusfirmus）725,该菌株产生的淀粉酶有较好的热稳定性,水解淀粉的主要产物为麦芽糖。自然菌株产生的淀粉酶往往是多种淀粉酶的混合,为进一步研究该菌株产生的淀粉酶的性质和在工业上应用的可能性,分离了三个淀粉酶基因,在大肠杆菌中克隆和表达[1]。其中重组质粒pBA150产生的淀粉酶的淀粉水解产物主要是麦芽糖［1］。β-淀粉酶（EC.3．2.1．2）水解淀粉的主要产物是麦芽糖,工业上可用于生产高麦芽糖浆,近年来又有β-淀粉酶用于啤酒工业的报道[2]。本文报道重组质粒pBA150的β-淀粉酶基因的序列分析及推导出的氨基酸序列同己知β-淀粉酶的氨基酸序列比较。     

Evidence for production of a new lantibiotic (butyrivibriocin OR79A) by the ruminal anaerobe Butyrivibrio fibrisolvens OR79: characterization of the structural gene encoding butyrivibriocin OR79A

The ruminal anaerobe Butyrivibrio fibrisolvens OR79 produces a bacteriocin-like activity demonstrating a very broad spectrum of activity. An inhibitor was isolated from spent culture fluid by a combination of ammonium sulfate and acidic precipitations, reverse-phase chromatography, and high-resolution gel filtration. N-terminal analysis of the isolated inhibitor yielded a 15-amino-acid sequence (G-N/Q-G/P-V-I-L-X-I-X-H-E-X-S-M-N). Two different amino acid residues were detected in the second and third positions from the N terminus, indicating the presence of two distinct peptides. A gene with significant homology to one combination of the determined N-terminal sequence was cloned, and expression of the gene was confirmed by Northern blotting. The gene (bvi79A) encoded a prepeptide of 47 amino acids and a mature peptide, butyrivibriocin OR79A, of 25 amino acids. Significant sequence homology was found between this peptide and previously reported lantibiotics containing the double-glycine leader peptidase processing site. Immediately downstream of bvi79A was a second, partial open reading frame encoding a peptide with significant homology to proteins which are believed to be involved in the synthesis of lanthionine residues. These findings indicate that the isolated inhibitory peptides represent new lantibiotics. Results from both total and N-terminal amino acid sequencing indicated that the second peptide was identical to butyrivibriocin OR79A except for amino acid substitutions in positions 2 and 3 of the mature lantibiotic. Only a single coding region was detected when restriction enzyme digests of total DNA were probed either with an oligonucleotide based on the 5' region of bvi79A or with degenerate oligonucleotides based on the predicted sequence of the second peptide.     

Synthesis, conformation, and biological activity of the carbohydrate-free vespulakinin 1

Synthesis of the carbohydrate-free heptadecapeptide corresponding to the amino acid sequence of vespulakinin 1 was achieved by the continuous flow solid phase procedure on 4-hydroxymethyl-phenoxyacetyl-norleucyl derivatized Kieselguhr-supported polydimethylacrylamide resin, as well as by a combination of solid phase and solution syntheses. Preformed Fmoc-amino acid symmetrical anhydrides (Boc derivative for the N-terminal residue) were used for amine acylation in the continuous flow method. Serine and threonine were side chain protected as tert.-butyl ethers and the 4-methoxy-2, 3, 6,-trimethyl-benzenesulfonyl group was used for masking the guanidino function of arginine residues. After cleavage from the resin the final peptide was purified by ion exchange chromatography and characterized by amino acid analysis, high voltage electrophoresis, and RP-HPLC analysis. Alternatively, the protected N-terminal octapeptide, Fmoc-Thr(But)-Ala-Thr(But)-Thr(But)-Arg(Mtr)-Arg-(Mtr)-Arg(Mtr)-Gly-OH was prepared on 4-hydroxymethyl-3-methoxyphenoxyacetyl-norleucyl derivatized Kieselguhr-supported polydimethylacrylamide resin and the C-terminal nonapeptide H-Arg(NO2)-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg-(NO2)-OBzl was synthesized in solution through the fragment condensation method. The two fragments were coupled by the DCC-HOBt procedure and the resulting heptadecapeptide was deblocked and purified. The conformational features of the synthesized peptides are reported. Preliminary pharmacological experiments indicated that carbohydrate-free vespulakinin 1 is more potent than bradykinin in lowering rat blood pressure.     

Isolation and Characterization of a Proteolipid in Defatted Soybean Meals

A proteolipid was isolated from the chloroform–methanol (2:1, by vol.) extract of defatted soybean meals by a modified Folch method. The proteolipid gave a yield of 0.05% of the defatted meals, and the ratio of protein and lipid was neary 3:4. The complex gave a single band containing both protein and lipid on polyacrylamide gel electrophoresis. TLC analysis of the lipid moiety showed that the major components were glycolipids and phospholipids. The protein moiety contained more hydrophobic amino acids and less acidic amino acids in comparison with the amino acid composition of soybean globulin. The protein moiety contained two kinds of protein component (I and II) which have molecular weights of 13,000 (I) and 15,000 (II) on SDS-urea polyacrylamide gel electrophoresis, and N-terminal amino acids of alanine (I) and glutamic acid (II). The apoprotein is a new protein and different from the whey proteins or globulins of soybean.     

Nucleotide sequence of cloned cDNA coding for pumpkin 11-S globulin beta subunit

cDNA coding for preproglobulin beta, a precursor protein of 11-S globulin beta subunit, was cloned and the nucleotide sequence has been determined. The sequence covers the whole coding region (1440 base pairs) with 5' and 3' noncoding region (30 and 214 base pairs, respectively). The deduced amino acid sequence of preproglobulin beta consists of a 21-amino-acid N-terminal signal peptide, preceding the acidic gamma polypeptide region (275 amino acids) and the subsequent basic delta region (184 amino acids). The site for post-translational cleavage of the precursor polypeptide to make the gamma and delta chains is estimated to be located between the asparagine-glycine residues. The N-terminal amino acid of the gamma chain of mature 11-S globulin beta subunit was reported to be blocked by 5-oxoproline (pyroglutamic acid) [Ohmiya et al. (1980) Plant Cell Physiol. 21, 157-167]. It was shown that the blocked N-terminal amino acid is coded as a glutamine residue. The derived amino acid sequence was also compared with those of precursor proteins of other 11-S globulins such as soybean glycinin, cotton beta globulin, pea legumin and rape 11-S globulin by dot matrix analysis.     

Synthesis of a radioactive thiol reagent, 1-S-[3H]carboxymethyl-dithiothreitol: identification of the phosphorylation sites by N-terminal peptide sequencing and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry

A novel radioactive thiol reagent, 1-S-[3H]carboxymethyl-dithiothreitol (DTT-S-C[3H(2)]CO(2)H, [3H]CM-DTT), was designed and synthesized at the micromole level by reaction of dithiothreitol with tritiated iodoacetic acid (I-C[3H(2)].CO(2)H). The reaction progress was followed by reverse-phase high-performance liquid chromatography (RP-HPLC) and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. The usefulness of the synthesized reagent was evaluated in a series of experimental approaches. (i) The synthetic phosphopeptide, NSVS(P)EEGRGDSV, was derivatized by [3H]CM-DTT separated from excess reagent by RP-HPLC. The extent of derivatization was quantitated in terms of the mol of P-Ser/mol of peptide by 3H counting, and the location of the phosphoserine was defined by the N-terminal Edman degradation sequence analysis as being the fourth amino acid residue from the N terminus. (ii) A sample of trypsin-digested alpha-casein was derivatized with [3H]CM-DTT, peptides were separated by RP-HPLC, and aliquots of each fraction were counted for 3H label within the peptide map which rapidly pinpointed the original four phosphoserine-containing peptides. This demonstrated the utility of the synthesized radioactive thiol agent in rapid purification and identification of phosphopeptides from HPLC peptide mapping of proteolytic digests of phosphoproteins. (iii) The [3H]CM-DTT was also used to determine the extent of phosphorylation of phosphoproteins both qualitatively by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography and quantitatively by 3H counting. The synthesized radioactive thiol reagent [3H]CM-DTT proved to be very efficient and sensitive and should be adaptable to a wide range of routinely utilized laboratory approaches in many fields of the biological sciences.     

Synthesis of chicken galanin and its N- and C-terminal segments,and preparation of their antisera

Summary We describe the synthesis of the first avian galanin (GAL), chicken GAL, and its N-terminal and C-terminal segments by solid-phase synthesis, using Boc/Bzl amino acid protection groups and MBHA resin. The three peptides were prepared with purities of over 97%, as determined by RP-HPLC, HPCE, FAB-MS or ESI-MS and amino acid analysis. Antibodies against these synthetic peptides were raised in rabbits and used for immunohistochemical localization of GAL-immunoreactive neurons in chicken brain.     

Identification of tyrosine and lysine peptides labeled by 5'-p-fluorosulfonylbenzoyl adenosine in the active site of pyruvate kinase

The nucleotide affinity label 5'-p-fluorosulfonylbenzoyl adenosine reacts at the active site of rabbit muscle pyruvate kinase, with irreversible inactivation occurring concomitant with incorporation of about 1 mol of reagent/mol of enzyme subunit (Annamalai, A. E., and Colman, R. F. (1981) J. Biol. Chem. 256, 10276-10283). Purified peptides have now been isolated from 70% inactivated enzyme containing 0.7 mol of reagent/mol of enzyme subunit. Rabbit muscle enzyme labeled with radioactive 5'-p-fluorosulfonylbenzoyl adenosine was digested with thermolysin. Nucleosidyl peptides were purified by chromatography on phenylboronate-agarose and reverse-phase high performance liquid chromatography. After amino acid and N-terminal analysis, the peptides were identified by comparison with the primary sequences of chicken and cat muscle enzyme. About 75% of the reagent incorporated was distributed equally among three O-(4-carboxybenzenesulfonyl)tyrosine-containing peptides: Leu-Asp-CBS-Tyr-Lys-Asn, Val-CBS-Tyr, and Leu-Asp-Asn-Ala-CBS-Tyr. These tyrosines are located in a 28-residue segment of the 530-amino acid sequence. The remainder of the incorporation was found in two N epsilon-(4-carboxybenzenesulfonyl)lysine-containing peptides. Leu-CBS-Lys and Ala-CBS-Lys-Gly-Asp-Tyr-Pro. Modification in the presence of MnATP or MnADP resulted in a marked decrease in labeling of these peptides in proportion to the decreased inactivation. It is suggested that these modified residues are located in the region of the catalytically functional nucleotide binding site of pyruvate kinase.     

Evidence for Production of a New Lantibiotic (Butyrivibriocin OR79A) by the Ruminal Anaerobe Butyrivibrio fibrisolvens OR79: Characterization of the Structural Gene Encoding Butyrivibriocin OR79A

The ruminal anaerobe Butyrivibrio fibrisolvens OR79 produces a bacteriocin-like activity demonstrating a very broad spectrum of activity. An inhibitor was isolated from spent culture fluid by a combination of ammonium sulfate and acidic precipitations, reverse-phase chromatography, and high-resolution gel filtration. N-terminal analysis of the isolated inhibitor yielded a 15-amino-acid sequence (G-N/Q-G/P-V-I-L-X-I-X-H-E-X-S-M-N). Two different amino acid residues were detected in the second and third positions from the N terminus, indicating the presence of two distinct peptides. A gene with significant homology to one combination of the determined N-terminal sequence was cloned, and expression of the gene was confirmed by Northern blotting. The gene (bvi79A) encoded a prepeptide of 47 amino acids and a mature peptide, butyrivibriocin OR79A, of 25 amino acids. Significant sequence homology was found between this peptide and previously reported lantibiotics containing the double-glycine leader peptidase processing site. Immediately downstream of bvi79A was a second, partial open reading frame encoding a peptide with significant homology to proteins which are believed to be involved in the synthesis of lanthionine residues. These findings indicate that the isolated inhibitory peptides represent new lantibiotics. Results from both total and N-terminal amino acid sequencing indicated that the second peptide was identical to butyrivibriocin OR79A except for amino acid substitutions in positions 2 and 3 of the mature lantibiotic. Only a single coding region was detected when restriction enzyme digests of total DNA were probed either with an oligonucleotide based on the 5′ region of bvi79A or with degenerate oligonucleotides based on the predicted sequence of the second peptide.     

Purification, characterization, gene cloning, sequencing, and overexpression of aminopeptidase N from Streptococcus thermophilus A.

The general aminopeptidase PepN from Streptococcus thermophilus A was purified to protein homogeneity by hydroxyapatite, anion-exchange, and gel filtration chromatographies. The PepN enzyme was estimated to be a monomer of 95 kDa, with maximal activity on N-Lys-7-amino-4-methylcoumarin at pH 7 and 37 degrees C. It was strongly inhibited by metal chelating agents, suggesting that it is a metallopeptidase. The activity was greatly restored by the bivalent cations Co2+, Zn2+, and Mn2+. Except for proline, glycine, and acidic amino acid residues, PepN has a broad specificity on the N-terminal amino acid of small peptides, but no significant endopeptidase activity has been detected. The N-terminal and short internal amino acid sequences of purified PepN were determined. By using synthetic primers and a battery of PCR techniques, the pepN gene was amplified, subcloned, and further sequenced, revealing an open reading frame of 2,541 nucleotides encoding a protein of 847 amino acids with a molecular weight of 96,252. Amino acid sequence analysis of the pepN gene translation product shows high homology with other PepN enzymes from lactic acid bacteria and exhibits the signature sequence of the zinc metallopeptidase family. The pepN gene was cloned in a T7 promoter-based expression plasmid and the 452-fold overproduced PepN enzyme was purified to homogeneity from the periplasmic extract of the host Escherichia coli strain. The overproduced enzyme showed the same catalytic characteristics as the wild-type enzyme.     

Characterization of the surface topography and putative tertiary structure of the human CD7 molecule

The CD7 gp40 molecule is a member of the Ig gene superfamily and is expressed on T cell precursors before their entry into the thymus during fetal development. N-terminal amino acids 1-107 of CD7 are highly homologous to Ig kappa-L chains whereas the carboxyl-terminal region of the extracellular domain of CD7 is proline-rich and has been postulated to form a stalk from which the Ig domain projects. To define potential functional regions of CD7, we have studied the surface topography of the CD7 Ag by synthesizing peptides corresponding to linear sequences within the CD7 extracellular domains, by raising polyclonal anti-CD7 rabbit sera against these peptides, and by computer analysis of the primary CD7 amino acid sequence. Polyclonal anti-CD7 sera were studied using indirect immunofluorescence, RIA, radioimmunoprecipitation, and Western blot assays. Computer analysis was performed comparing the CD7 sequence with all other known protein sequences. We found that three CD7 epitopes defined by peptides CD7-1A (AA 1-38), CD7-4 (AA 48-74), and CD7-7 (AA 129-146) were available for binding antibody on the surface of the CD7 molecule. Using computer analysis, we transposed the amino acid sequence of the CD7 Ig kappa-like N-terminal domain of CD7 onto the spatial coordinates of REI, a previously reported Ig kappa-molecule highly homologous (48%) to the CD7 N-terminal Ig-like region. Based on computer analysis of this putative CD7 three-dimensional structure, both the CD7-1A and CD7-4 regions protruded from the surface of the N-terminal domain of the CD7 molecule. Finally, comparison of the CD7 transmembrane sequence with CD4 and HIV transmembrane sequences and with respiratory syncytial virus fusion sequences demonstrated similar sequence motifs among these molecules.