Human identification and sex determination of dental pulp, bone marrow and blood stains with a recombinant DNA probe

Recombinant DNA hybridizing specifically to a 300 nucleotide repeat DNA sequence (BLUR8) of human specificity and to human repeat DNA sequence (pHY10) on the Y chromosome was used for human identification and sex determination of degraded DNA samples of blood stains, dental pulp, and bone marrow. This radioactive technique enabled reliable and sensitive human and sex determination from blood stains that were more than 80 years old. Less than 1 piece of 0.5 cm length thread of blood stain was enough for both tests. DNA from relatively fresh dental pulp and bone marrow was clearly identified. The human identification test, which could recognize up to 0.3 ng DNA correctly, was 3 to 5 times more sensitive than the sex determination test.     

PCR扩增ZFY/ZFX基因鉴定人类干血痕性别

应用 PCR 技术同时扩增人 ZFY 和 ZFX 基因特异的 DNA 序列,在男性血痕中可检测到两种扩增产物,即340bp 长的 ZFY 基因及488bp 长的 ZFX 基因特异 DNA 片段;在女性血痕中仅可检测到488bp 长的 ZFX 基因特异 DNA 片段,据此判定干血痕性别。干血痕的最小检出需要量为0.125μl 血液量的血痕。室温保存10年的血痕可以准确判定性别。ZFY 基因位于 Y 染色体短臂。本方法同时检测两条性染色体,可以避免由于扩增失败或 Y 染色体长臂变异出现的假阴性或假阳性。扩增产物经琼脂糖凝胶电泳即可区分。     

用引物Y_3,Y_4和DNA扩增技术作血液(痕)和毛根性别鉴定的研究

作者用引物Y_3、Y_4和DNA聚合酶链式反应(PCR)作微量人类血液(痕)和毛根的性别鉴定。扩增的靶序列位于Y染色体DNA特异3.4kb重复序列中,扩增产物为460bp。检材用量为:新鲜血液0.5μl、血痕纱纤维1mm、毛根单个。20例保存4个月的血痕与2例保存6年半的血痕性别判定结果均正确,无性别记载的保存9～11年的3例血痕显现了清晰的460bpY特异DNA扩增带。15例保存20天的自然脱落毛根性别判定结果均正确。本法省略了检材处理中的酚-氯仿抽提DNA等纯化步骤,既简化了实验操作,又减少了检验过程中外源DNA的污染机会和样品DNA的损耗,使这一性别鉴定方法更符合法医学实践的需要。     

体外DNA扩增技术鉴定血痕性别三例报告

本文报道用体外DNA扩增技术对3例刑事案中的人血痕标本进行性别鉴定。其方法是从血痕标本中微量抽提DNA,用蛋白酶K进行消化。然后用两组引物Y1.1与Y1.2和Alu9.1与Alu9.2及国产FD耐热DNA聚合酶进行聚合酶链反(PCR)扩增DNA,电泳分析Y及Alu重复序列,从而判断血痕的性别。     

Sex determination of cadaver material by the detection of specific nucleotide sequences of the Y chromosome following DNA cleavage

A gene technological method of sex determination in cadaverous material is reported. The samples were taken from a child's corpse, which was nearly completely skeletonized after 1 year in water. From cells of the bone marrow the DNA was isolated and digested by restriction enzymes. A defined fragment of 2.12kb length was cleaved off by the endonuclease HaeIII in the presence of Y chromosomes. After agarose-gel electrophoresis of the DNA fragments, the specific sequence was detected by hybridization with the cloned, radioactively labelled complementary plasmide pHY2.1.     

用引物Y_3、Y_4和PCR方法鉴定性别的法医学应用

用Y3、Y4和Alu9．1、Alug．2两对引物和PCR方法检测陈旧血痕和毛根的性别获得成功。引物Y3、Y4扩增的靶序列位于Y染色体特异3．4Kb重复序列中，扩增产物为460bp；引物Alu9．1、Alu9.2用以扩增男女共有的Alu重复序列，扩增产物为130bP。室温保存13年之久的19例脐带血血痕（男性9冽，女性10例）和室温保存10～11个月的10例已知性别自然脱落毛根（男性6例，女性4例）的性别测定结果均正确；对一起凶杀案的血痕性别测定为定案提供了重要证据。本方法简化了样品的前处理过程。     

Sex determination of human blood micro-stains and single hairs using specific DNA amplification with polymerase chain reaction

Amplification of Y chromosome specific DNA in vitro enables a rapid and reliable sex determination of human minute traces such as blood stains and hairs. In presence of male DNA a band of 154 bp is visualized by agarose gel electrophoresis after amplification, this band is lacking in case of female DNA alone. Amplification of a sex independent DNA locus (such as a fragment from the alcohol dehydrogenase gene) generates identical reaction products for both sexes. This shows that the absence of a band is not due to the lack of trace DNA. It is possible to perform this technique with as little as 0.5 microliters of blood or with a single hair.     

Human genotyposcopy: the identification of the species, sex and individual by DNA genetic imprints in a case connected with a murder attempt]

Blood stains on a knife were identified by DNA genotyposcopy. The statistical validation method has confirmed that the blood stains on material evidence belonged to the victim, the probability of random coincidence being less than 10(-11). The efficacy of using hypervariable locus-specific DNA probes and the possibility of detecting DNA impressions in blood stains stored for more than 3 months have been demonstrated.     

Human blood stain identification and sex determination in dried blood stains using recombinant DNA techniques

DNA was extracted from human and non-primate dried blood stains. Human male and female specimens were readily distinguished by analysis with a Y-chromosome specific DNA probe. Human and non-primate blood stains were also readily differentiated using a repeat sequence (Alu) DNA probe. The potential power of recombinant DNA analysis in forensic science is discussed.     

DNA指纹图在法医学鉴定中应用的研究(Ⅲ)——应用“Myo”DNA探针进行混合斑中精液的个体认定

本文利用蛋白酶K、SDS对精液和阴道液、精液和血液的混合斑进行前处理,除去女性阴道脱落上皮细胞和血液细胞成份获得精子。提取精子DNA,用“Myo”小卫星DNA探针杂交进行DNA指纹检验,获得了高度多态性的精子DNA指纹图谱,与同一个体血液DNA指纹图谱比较完全一致,实现了混合斑中精液来源的个体认定。在对20多起强奸案例混合斑的实际应用中,成功地认定了强奸罪犯。     

Determination of MN blood group from blood stains by electrophoresis and immunoblotting

The determination of blood groups from blood stains is extremely important in medicolegal practice, but there is the possibility of an error in the determination of MN phenotypes by the absorption-elution test. We investigated a new method applying electrophoresis and immunoblotting. As a consequence of various experiments, the most appropriate pretreatment of blood stains was as follows. Blood stains were immersed in physiological saline for 0.5 to 1 h and centrifuged. The supernatant was discarded. The sediment was dissolved in sample buffer (TRIS-buffered physiological saline containing 2% sodium dodecyl sulfate) and followed by thermodegradation. It was subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). After transfer to a nitrocellulose membrane by Western blotting, MN phenotypes could be determined accurately from blood stains by an enzyme immunoassay (EIA) using commercially available polyclonal anti-M and anti-N sera. For blood stains more than 1 month old it was not easy to determine the MN phenotypes.     

Identification of male bloodstains by dot hybridization of human Y chromosome-specific deoxyribonucleic acid (DNA) probe

The sex determination of bloodstains was performed using a human Y chromosome-specific (DNA) fragment of 1.9-kb length as a hybridization probe. The DNA samples were taken from 1- and 4-week-old bloodstains of males and females, respectively. Strong signals with male DNA were observed by Y-probe, while faint signals with female DNA were detected. In addition, clear signals were observed in the extract samples from male bloodstains (16-week-old) on paper. Dot hybridization of the Y-probe would be widely applicable to studies on sex determination of medicolegal materials such as blood, bloodstains, teeth, and cadaverous parts.     

用Y—染色体特异DNA探针鉴识微量干血痕性别的研究

法医鉴识干血痕性别,通常是用盐酸阿地平染色观察 Y—小体的方法。重组 DNA 技术的发展与应用,为法医物证检验开辟了新的领域。本文用 Y—染色体特异 DNA 探针鉴识干血痕性别的成功,为法医的血痕性别签定,提供了一种新的检验方法。     

Sex identification of forensic specimens by polymerase chain reaction (PCR): two alternative methods

Sex identification of forensic samples (bloodstains and decomposed tissue) by polymerase chain reaction (PCR) was investigated. Amplification of a segment of the amelogenin gene using a pair of primers revealed both Y- and X-specific bands at the same time. The gene has counterparts in both the X and Y chromosomes and a small deletion in the former made it possible to distinguish them. Analysis of the X-specific band is the most reliable method for sex identification. THe locus includes a single copy gene so a sample of 250 ng/tube of deoxyribonucleic acid (DNA) is required for identification. Amplification of part of the DYZ1 locus was attempted as an alternative method for analysis of infinitesimal amounts of sample. Even DNA from putrefied tissue could be analyzed by PCR because the locus consists of thousands of copies of repeating units pHY10.     

An improved method for the determination of Y chromosomes in blood stains (author's transl)]

A new filter combination for fluorescence microscopy using SWP 440 interfernece filter for excitation and GG 455 as the barrier filter is described. In blind trials examining blood smears of 5 male persons and by examination of 3 weeks old blood stains a better Y chromosome demonstration has been obtained using this new technique in comparison with the "usual" filter combination: BG 12-530. In blind trials of up to 6 weeks old blood stains of one male and one female a reliable sex determination was made using the new technique.     

DNA指纹图在法医学鉴定中应用的研究(Ⅱ)——应用‘Myo’小卫星探针进行血斑、精斑、个体组织的个体认定

应用‘Myo’小卫星 DNA 探针,Southern 印迹杂交技术,对血斑、精斑、同一个体不同组织进行 DNA 指纹图分析,均获得清晰的图谱。同一个体的血斑与血液、精斑与精液以及不同的组织其 DNA 指纹图谱完全相同。可以根据斑痕或组织与嫌疑个体的血液或某一组织 DNA 的指纹图谱比对以做出同一认定。50μl 血液量的血斑、5μl 精液量的精斑可以获得清晰易辨的指纹图谱。五年的精斑、两年的血斑亦可做出与同源个体新鲜精液、血液完全一致的 DNA 指纹图谱。对杀人、强奸杀人、碎尸等不同案件的血痕、精斑、不同组织碎块进行了 DNA 指纹图检验,均做出了正确的个体认定。本方法的应用为我国法医物证检验提供了新的分析手段,使个体认定得以实现。     

The modified method of two-step differential extraction of sperm and vaginal epithelial cell DNA from vaginal fluid mixed with semen

This investigation was undertaken as an efficient method for isolating sperm DNA from a mixed fluid sample which contains vaginal epithelial cells in a greater amount. The modified method of the two-step differential extraction procedure was found to be suitable for separating sperm DNA and vaginal epithelial cell DNA from the mixed stains. As the first step of digestion, vaginal epithelial cells in the mixed stains were lysed with Proteinase K and SDS, and sperm heads remaining in the lysed solution were collected by centrifugation. As the second step digestion, the sperm heads were lysed with the buffer containing Proteinase K, SDS and DTT as reducing agent. DNA fractions extracted from the two lysed solutions were enriched, one with sperm DNA and the other with vaginal epithelial cell DNA. MCT118(D1S80), ApoB VNTR and HLADQα types of sperm DNA were detected and were confirmed by matching with corresponding male blood DNA. In the case of vaginal secretion mixed with semen of two males, the mixture of MCT118 types of the two males was detected in sperm DNA fraction.     

Evaluation of four deoxyribonucleic acid (DNA) extraction protocols for DNA yield and variation in restriction fragment length polymorphism (RFLP) sizes under varying gel conditions.

This study originated from discussions and recommendations of the Technical Working Group on DNA Analysis Methods (TWGDAM). Four bloodstain deoxyribonucleic acid (DNA) extraction protocols and five semen stain DNA extraction protocols were evaluated. Nine laboratories participated in the extraction of DNA from 20 bloodstains and 20 semen stains using each protocol. All blood and semen stains originated from a single donor and were prepared under uniform conditions to permit the direct comparison of DNA yields and restriction fragment lengths. The extracted DNA from approximately 600 bloodstains and 700 semen stains was quantified by yield gel analysis and a slot blot hybridization technique. The extracted DNA was digested and restriction fragment length polymorphism (RFLP) patterns were generated using three single-locus probes. The RFLP sizing data produced from the blood and semen stains were evaluated with respect to (1) DNA extraction method, (2) gel length, (3) agarose type, (4) presence or absence of ethidium bromide in the gel, and (5) fragment sizes obtained from DNA isolated directly from the donor's liquid blood. This study demonstrates conclusively that high-molecular-weight DNA can be isolated using either organic or nonorganic DNA extraction protocols and that the resulting RFLP sizes are highly reproducible regardless of gel length, agarose type, or presence/absence of ethidium bromide.     

The application of visible wavelength reflectance hyperspectral imaging for the detection and identification of blood stains

Current methods of detection and identification of blood stains rely largely on visual examination followed by presumptive tests such as Kastle–Meyer, Leuco-malachite green or luminol. Although these tests are useful, they can produce false positives and can also have a negative impact on subsequent DNA tests. A novel application of visible wavelength reflectance hyperspectral imaging has been used for the detection and positive identification of blood stains in a non contact and non destructive manner on a range of coloured substrates. The identification of blood staining was based on the unique visible absorption spectrum of haemoglobin between 400 and 500 nm. Images illustrating successful discrimination of blood stains from nine red substances are included. It has also been possible to distinguish between blood and approximately 40 other reddish stains. The technique was also successfully used to detect latent blood stains deposited on white filter paper at dilutions of up to 1 in 512 folds and on red tissue at dilutions of up to 1 in 32 folds. Finally, in a blind trial, the method successfully detected and identified a total of 9 blood stains on a red T-shirt.     

RNA/DNA co-analysis from blood stains—Results of a second collaborative EDNAP exercise

A second collaborative exercise on RNA/DNA co-analysis for body fluid identification and STR profiling was organized by the European DNA Profiling Group (EDNAP). Six human blood stains, two blood dilution series (5-0.001 μl blood) and, optionally, bona fide or mock casework samples of human or non-human origin were analyzed by the participating laboratories using a RNA/DNA co-extraction or solely RNA extraction method. Two novel mRNA multiplexes were used for the identification of blood: a highly sensitive duplex (HBA, HBB) and a moderately sensitive pentaplex (ALAS2, CD3G, ANK1, SPTB and PBGD). The laboratories used different chemistries and instrumentation. All of the 18 participating laboratories were able to successfully isolate and detect mRNA in dried blood stains. Thirteen laboratories simultaneously extracted RNA and DNA from individual stains and were able to utilize mRNA profiling to confirm the presence of blood and to obtain autosomal STR profiles from the blood stain donors. The positive identification of blood and good quality DNA profiles were also obtained from old and compromised casework samples. The method proved to be reproducible and sensitive using different analysis strategies. The results of this collaborative exercise involving a RNA/DNA co-extraction strategy support the potential use of an mRNA based system for the identification of blood in forensic casework that is compatible with current DNA analysis methodology.