DIA3 phenotyping in human tissues, dental pulps, and hair roots by isoelectric focusing

The polymorphism of DIA3 was investigated in tissues of various human organs, dental pulps, and hair roots by isoelectric focusing. DIA3 types were demonstrated from tissues of brain, prostate, testis, ovary, and uterus, but not from tissues of spleen, pancreas, heart, liver, muscle, lung, skin, and kidney. Determination was possible from dental pulps stored at room temperature for up to 2 weeks and from fresh hair roots. The results show that the DIA3 typing by isoelectric focusing is useful for medicolegal individualization of brain, reproductive organs, teeth, and hairs.     

PGD phenotyping in bloodstains, organ tissues, dental pulps and hair roots by isoelectric focusing

Polymorphism of PGD was investigated in bloodstains, organ tissues, dental pulps, hair roots and semen by isoelectric focusing. This technique provided much higher resolution of PGD isoenzymes than starch gel electrophoresis. Phenotyping was possible from bloodstains for 5 weeks, from organ tissues (except pancreas) for 1-3 weeks, from dental pulps for 2 weeks and from hair roots for 2 weeks when they were stored at room temperature. The method is simple, rapid, reliable and therefore useful in medicolegal individualization of bloodstains, organ tissues, teeth and hairs.     

Esterase D phenotyping of bloodstains and hair roots by low voltage isoelectric focusing

A new isoelectric focusing method is described for phenotyping of esterase D in blood stains and hair roots. It permitted easy and rapid discrimination of six phenotypes determined by ESD*1, ESD*2 and ESD*7. Experiments showed it to be practicable in forensic stain work. In addition, this technique was also usable in phenotyping of ESD 5.     

Evidence for a "new" allele at the esterase D (E.C. 3.1.1.1.) locus

An apparently new EsD gene product (EsD*Düsseldorf) was detected by use of horizontal agarose gel electrophoresis (AGE), starch gel electrophoresis (SGE), and isoelectric focusing (IEF). The observed phenotype EsD (1-Düsseldorf) can be distinguished from any known EsD type.     

Polymorphism of EsD by isoelectric focusing: description of the new allele EsD*Kofu and phenotyping in bloodstains

The polymorphism of EsD was investigated in 1115 unrelated Japanese individuals by isoelectric focusing. Besides the three common phenotypes two heterozygotes EsD 7-1 and EsD 7-2 were observed. The gene frequencies were: EsD*1 = 0.6234, EsD*2 = 0.3663, and EsD*7 = 0.0103. In addition, a rare variant was detected in a probandus living in the city of Kofu. The family analysis suggested the hereditary occurrence of a new allele EsD*Kofu. The isoelectric focusing method was successfully applied to phenotyping EsD in bloodstains; each phenotype was demonstrated at 37 degrees C for up to 2 weeks, at room temperature for up to 9 weeks, and at 4 degrees C for over 20 weeks after stain formation.     

Detection of orosomucoid 1 phenotypes in semen and semen stains

Orosomucoid 1 phenotypes were detected in seminal plasma by isoelectric focusing and immunoprinting. The orosomucoid 1 phenotypes in seminal plasma correlated with the types found in the corresponding serum specimens. Semen stains stored for ten days could be typed for orosomucoid 1. The present work revealed that orosomucoid 1 is a useful genetic marker for the medicolegal grouping of semen stains.     

alpha-L-fucosidase phenotyping in human placentae, semen and seminal stains

The polymorphism of alpha-L-fucosidase (Fu) was investigated in a Japanese population from samples of placentae and semen, using isoelectric focusing. The gene frequencies of placental types were Fu1 = 0.748 and Fu2 = 0.252, and those of seminal types were Fu1 = 0.739 and Fu2 = 0.261. The coincidence in the distribution between the placental and seminal types suggests that the Fu types occurring in placentae and in semen are controlled by the same Fu alleles. The Fu typing was possible in seminal stains stored at 4 degrees C for up to 9 weeks, at room temperature for up to 7 weeks and at 37 degrees C for up to 4 weeks. The Fu types were still detectable at semen dilutions of up to 1:4. This polymorphism would provide a useful genetic marker for the medicolegal grouping of seminal stains.     

Subtyping phosphoglucomutase-1 in semen stains and bloodstains: a report on the method

A method is described for obtaining nondistorted, reproducible phosphoglucomutase-1 subtyping patterns from semen stains and bloodstains. Isoelectric focusing of phosphoglucomutase-1 was accomplished in 80 min in a 0.2-mm-thick polyacrylamide gel with an interelectrode wick distance of 8.0 cm. The gel contained 1.2% (w/v) N-(2-hydroxyethyl) piperazine-N-3-propanesulfonic acid (EPPS) and pH 5 to 7 ampholytes (4% w/v). When maintained at room temperature, laboratory-prepared bloodstains and semen stains could be typed for phosphoglucomutase-1 up to four months and three weeks, respectively. An evaluation of phosphoglucomutase-1 typing by isoelectric focusing and the Group I system was performed on casework samples submitted to the FBI Laboratory. In addition to the increased discriminating probability of phosphoglucomutase-1 when subtyped, isoelectric focusing yielded an increase in positive calls on questioned bloodstains (65.6 versus 36.2%) and dried seminal stains (16.4 versus 13.1%) compared with the Group I system.     

Polymorphisms of the enzyme systems galactose-1-phosphate uridyltransferase (GALT) and esterase D (EsD) in the province of Cádiz, southern Spain

Galactose-phosphate uridyltransferase (GALT) and esterase D (EsD) phenotypes were determined by isoelectric focusing in ultrathin-layer polyacrylamide gel (PAGIF) for 406 healthy subjects randomly chosen and residing in the province of Cádiz, in Southern Spain. The following gene frequencies were observed: for GALT, GALT1 = 0.952 970 3 and GALT2 = 0.047 029 71; for EsD, EsD1 = 0.895 320 2, EsD2 = 0.094 827 59, and EsD5 = 0.009 852 21.     

EsD*5 gene frequency in Tuscany (Italy)

The distribution of the human red cell esterase D (EsD) "extended" polymorphism in a population sample from Tuscany (Italy) was studied using agarose gel isoelectric focusing. The estimated gene frequencies were: EsD*1 0.864, EsD*2 0.115, EsD*5 0.021. The EsD*5 allele frequency is very similar to those reported for other European populations. The "extension" of the EsD polymorphism may prove to be useful in paternity testing.     

The esterase D polymorphism as revealed by isoelectric focusing in ultra-thin polyacrylamide gels

The polymorphism of human red cell esterase D (EsD) was studied using isoelectric focusing (pH 4-6) in ultra-thin polyacrylamide gels. Typing was possible without the EsD isozymes attaining true equilibrium focusing conditions. Using this single method, six phenotypes (EsD 1, 2-1, 2, 5-1, 5-2 and 5) could be recognized in the White population of south-east England. Family studies showed these to be controlled by three co-dominant alleles and the gene frequencies were calculated to be EsD1 0.8856; EsD2 0.0946 and EsD5 0.0198. For successful and reliable EsD typing by this method, the electrophoretic system must be carefully optimized with respect to the duration of electrophoresis and the temperature attained in the gel during the electrophoretic run.     

Genetic study of red cell esterase D polymorphism by ultrathin layer isoelectric focusing. Distribution in the Veneto population (Italy)

Human red cell Esterase D (EsD) was analyzed by isoelectric focusing (IEF) on ultrathin-layer polyacrylamide gel with a pH range of 5.0-6.0. Hemolysates were treated with Dithiothreitol to avoid loss of activity and change of the isozyme patterns by in vitro storage effects. In our sample of 951 unrelated persons from Veneto, seven different phenotypes were observed. The following allele frequencies were calculated: EsD1 = 0.8476, EsD2 = 0.1336, EsD5 = 0.0178, and EsDV = 0.0010.     

Plasma protein and red cell enzyme groups in Galicia (north west Spain)

Galactose-1-phosphate uridyl transferase (GALT), esterase D (EsD), and plasminogen (PLG) phenotypes were determined by isoelectric focusing in thin-layer polyacrylamide gels (PAGIF) in a random sample from Galicia. Haptoglobins (Hp) were determined by conventional electrophoresis. The following gene frequencies were observed: for GALT: GALTN: 0.930; GALTD1: 0.044; GALTD2: 0.025; for EsD: EsD1: 0.874; EsD2: 0.104; EsD3: 0.021; for PLG: PLG1: 0.800; PLG2: 0.199; for Hp: Hp1: 0.426; Hp2: 0.573. Population data results of all electrophoretic markers typed until now in Galician population are also included.     

A comparison of the sensitivity of typing group-specific component (Gc) and the phosphoglucomutase (PGM1) locus in control and casework bloodstains by three isoelectric focusing methods

The performance of typing group-specific component (Gc) in bloodstains by two isoelectric focusing methods followed by its detection with silver staining has been compared with an established forensic system of typing phosphoglucomutase (PGM1) locus phenotypes by isoelectric focusing (IEF) in 1 mm gels. For Gc typing ultra-thin isoelectric focusing (UTIEF) gels and immobilized pH gradient (IPG) gels were used. Both laboratory prepared stains and casework stains were examined. The Gc UTIEF method is approximately eight times more sensitive than the existing PGM1 1 mm IEF method for control and casework stains. However, on average, a larger amount of stain was taken from casework stains than control stains for each typing system. A total of 53 casework stains were examined. Comparable success rates of 62% and 64% were obtained for typing Gc on UTIEF gels and PGM1 by 1 mm IEF, respectively. A success rate of 55% was obtained for typing Gc on IPGs. Bloodstains that were over 200 days old were successfully grouped by all three methods.     

Typing study of human semen DIA3 by isoelectric focusing--distribution in the Wuhan population, China

Human semen DIA3 typing was studied by isoelectric focusing on ultra-thin-layer polyacrylamide gel which resulted in a simpler and more definite separation of the products of DIA3 alleles than hitherto. In 198 semen samples collected from unrelated Chinese males four different phenotypes were observed. The DIA3 allele frequencies were calculated: DIA 3(1) = 0.7727, DIA 3(2) = 0.2172, DIA 3(3) = 0.0101. The results of the stability study of 12 laboratory-prepared semen stains stored at room temperature suggested that DIA3 in seminal strains is a relatively stable genetic marker. Our gene frequencies have been compared to those reported in other populations.     

DIA3 phenotyping in human semen and seminal stains by isoelectric focusing

The polymorphism of DIA3 was investigated by isoelectric focusing in semen samples from 235 unrelated Japanese volunteers and patients. Besides the three common phenotypes seven samples of the type 3-1 were observed. However, readable isoenzyme patterns were not demonstrated in semen samples of oligospermia under about 10 X 10(6)/ml sperm cells. The allele frequencies were DIA3*1 = 0.821, DIA3*2 = 0.164, and DIA3*3 = 0.015. The DIA3*1 frequency in oligospermia (0.765) was lower than that in normospermia (0.836). The isoelectric focusing method was successfully applied to phenotyping DIA3 in seminal stains; each phenotype was demonstrated at 37 degrees C for up to 4 weeks, at room temperature for up to 8 weeks, and at 4 degrees C for over 12 weeks after stain formation. In vaginal swabs the isoenzyme bands were very faint and not identifiable.     

人体组织黄递酶Ⅲ分型

应用超薄层PAGIEF对人体组织作DIA3分型，结果显示睾丸、卵巢、子宫肌和牙髓组织均可检出DIA3多型带。脑、肝、肾、肾上腺、脾、肠、胰腺、心肌、肺、皮肤和骨骼肌以及血液、阴道液和毛根均未检测出DIA3。应用紫外分光光度法测定人体不同组织，血液和阴道液中DIA相对活性，结果各组织DIA活性相对值与PAGIEF中DIA显色谱带密度基本一致。作者认为，用PAGIEF对生殖器官和牙髓进行DIA3分型在法医的个人识别中有一定意义，在混合斑鉴定中可以不考虑阴道液对精液DIA3分型的干扰。     

The use of separator isoelectric focusing in micro-ultrathin polyacrylamide gels in the characterization of some polymorphic proteins of forensic science significance

The identification of phenotypes of erythrocyte acid phosphatase (EAP), esterase D (EsD), group specific component (Gc), and alpha-1-antitrypsin (PI) by separator isoelectric focusing in micro-ultrathin polyacrylamide gels (interelectrode distance: 45 mm) is described. The protein patterns obtained are compared favorably with the patterns seen by isoelectric focusing in conventional polyacrylamide gel dimensions (interelectrode distance: 110 to 120 mm). The technique described allows greater stability of pH gradients and is a fast and economic method.     

The use of isoelectric focusing (IEF) as a method for the combined phenotyping of erythrocyte acid phosphatase (EAP) and esterase D (EsD)

The simultaneous isoelectric focusing (IEF) in polyacrylamide gels (PAG) of erythrocyte acid phosphatase (EAP) and esterase D (EsD) allows the poor discriminating power (DP) of EsD to be usefully combined with a highly discriminating system EAP, such that a joint DP of 0.766 was achieved compared with PGM IEF DP 0.756. Focusing was carried out in a centrally flattened gradient containing ampholines (pH 4-6 and 6-8) and the chemical spacer 3-(N-morpholino) propanesulphinic acid (MOPS). It enabled the identification of six EsD phenotypes including the recently discovered EsD5 isozymes. The application of this method to casework bloodstains is discussed.     

Simultaneous identification of alpha-L-fucosidase and phosphoglucomutase (PGM) subtyping in semen stains

Seminal fluid and stains were analyzed by isoelectric focusing to determine the donor phenotype in the alpha-L-fucosidase (AlFuc) polymorphic system. The enzyme is found in both seminal fluid and spermatazoa. Three common phenotypes exist and can be identified in fluid specimens stored at 4 degrees C for more than a year. Untreated semen specimens display more than eight distinct bands of alpha-L-fucosidase activity with isoelectric points of pH 6.6 and below. Neuraminidase-treated specimens have enhanced banding patterns cathodally with a loss of activity in anodal bands making it easier to phenotype specimens. Semen stains maintained in dehumidified chambers at 25 or 37 degrees C retained activity for at least one month and could be accurately phenotyped. Activity was observed in semen specimens maintained at -20 degrees C in the dried state for a period of one year, whereas a complete loss of activity was observed after two weeks in similar specimens maintained at 25 or 37 degrees C under humid conditions. Of seventy-four semen stains analyzed, two had no apparent activity. Of the remaining seventy-two specimens 56, 32, and 12% were phenotyped as FUC 1-1, FUC 2-1, and FUC 2-2, respectively. Calculated gene frequencies are FUC1 = 0.72 and FUC2 = 0.28. Following analysis of alpha-L-fucosidase, the agarose gel can be chemically developed to reveal the PGM1 subtyping pattern. The ability to phenotype both systems in semen stains significantly improves the ability of the analyst to individualize this type of physical evidence. The probability of discrimination for these two combined systems is approximately 0.89.