High-throughput screening of mouse gene knockouts identifies established and novel skeletal phenotypes

Screening gene function in vivo is a powerful approach to discover novel drug targets. We present high-throughput screening （HTS） data for 3 762 distinct global gene knockout （KO） mouse lines with viable adult homozygous mice generated using either gene-trap or homologous recombination technologies. Bone mass was determined from DEXA scans of male and female mice at 14 weeks of age and by microCT analyses of bones from male mice at 16 weeks of age. Wild-type （WT） cagemates/littermates were examined for each gene KO. Lethality was observed in an additional 850 KO lines. Since primary HTS are susceptible to false positive findings, additional cohorts of mice from KO lines with intriguing HTS bone data were examined. Aging, ovariectomy, histomorphometry and bone strength studies were performed and possible non-skeletal phenotypes were explored. Together, these screens identified multiple genes affecting bone mass： 23 previously reported genes （Calcr, Cebpb, Crtap, Dcstamp, Dkkl, Duoxa2, Enppl, Fgf23, Kissl/Kisslr, Kl （Klotho）, Lrp5, Mstn, Neol, Npr2, Ostml, Postn, Sfrp4, S1c30a5, Sic39a13, Sost, Sumf1, Src, Wnt10b）, five novel genes extensively characterized （Cldn18, Fam20c, Lrrkl, Sgpll, Wnt16）, five novel genes with preliminary characterization （Agpat2, RassfS, Slc10a7, Stc26a7, Slc30a10） and three novel undisclosed genes coding for potential osteoporosis drug targets.

Bioinformatics Analysis Raises Candidate Genes in Blood for Early Screening of Parkinson's Disease

Parkinson＇s disease （PD） is a typical degenerative disease, which is characterized by the most obvious symptoms of movement dysfunction, including shaking, rigidity, slowness of movement and difficulty in walking and gait. This disease can not be clearly identified through laboratory tests at present, thus application of high-throughput technique in studying the expression profiles of PD helps to find the genetic markers for its early diagnosis. Studies on expression profiles of neurodegenerative diseases have revealed the novel genes and pathways involved in the progress of illness. In this study, the expression profiles of PD in blood were compared, showing that 181 differentially expressed genes （DEG） exhibit a similar expression trend both in patients and in normal controls.

Research progress and application of the CRISPR/Cas9 gene-editing technology based on hepatocellular carcinoma

Hepatocellular carcinoma(HCC)is now a common cause of cancer death,with no obvious change in patient survival over the past few years.Although the traditional therapeutic modalities for HCC patients mainly involved in surgery,chemotherapy,and radiotherapy,which have achieved admirable achievements,challenges are still existed,such as drug resistance and toxicity.The emerging gene therapy of clustered regularly interspaced short palindromic repeat/CRISPR-associated nuclease 9-based(CRISPR/Cas9),as an alternative to traditional treatment methods,has attracted considerable attention for eradicating resistant malignant tumors and regulating multiple crucial events of target gene-editing.Recently,advances in CRISPR/Cas9-based anti-drugs are presented at the intersection of science,such as chemistry,materials science,tumor biology,and genetics.In this review,the principle as well as statues of CRISPR/Cas9 technique were introduced first to show its feasibility.Additionally,the emphasis was placed on the applications of CRISPR/Cas9 technology in therapeutic HCC.Further,a broad overview of non-viral delivery systems for the CRISPR/Cas9-based anti-drugs in HCC treatment was summarized to delineate their design,action mechanisms,and anticancer applications.Finally,the limitations and prospects of current studies were also discussed,and we hope to provide comprehensively theoretical basis for the designing of anti-drugs.

Screening of Genes with Unique Mutations of Microcus

Yersinia pestis is the causative agent of bubonic and pneumonic plagues. Strains of Y. pestis are classified into four biovars： antiqua, mediaevalis, orientalis, and microtus[11. There are two microtus-related plague loci in China： the Microtus brandti plague focus in the Xilin Gol Grassland （focus L） and the Microtus fuscus plague focus in the Ojnghai-Tibet Plateau （focus M）.

Utilization of Gene Mapping and Candidate Gene Mutation Screening for Diagnosing Clinically Equivocal Conditions: A Norrie Disease Case Study

Prenatal diagnosis was requested for an undiagnosed eye disease showing X-linked inheritance in a family. No medical records existed for the affected family members..Mapping of the X chromosome and candidate gene mutation screening identified a c.C267A[p.F89L] mutation in NPD previously described as possibly causing Norrie disease..The detection of the c.C267A[p.F89L] variant in another unrelated family confirms the pathogenic nature of the mutation for the Norrie disease phenotype. Gene mapping, haplotype analysis, and candidate gene screening have been previously utilized in research applications but were applied here in a diagnostic setting due to the scarcity of available clinical information..The clinical diagnosis and mutation identification were critical for providing proper genetic counseling and prenatal diagnosis for this family.

Tay-Sachs carrier screening in the genomics age: Gene sequencing versus enzyme analysis in non-Jewish individuals

Purpose: To compare the sensitivity of Hexosaminidase A (HexA) enzyme-based testing to gene sequencing for carrier detection in non-Jewish individuals. Methods: Blood samples were obtained from parents and relatives of affected patients at an annual Tay-Sachs and Allied Diseases Foundation meeting. A family history was taken for each individual. Samples were analyzed for leukocyte HexA activity, serum HexA activity and subjected to extensive gene sequencing. The results from these analyses were combined with our previously published data describing 34 obligate Tay-Sachs disease (TSD) carriers. Results: Twelve additional TSD carriers were detected in this study. Gene sequencing successfully identified all 12 carriers whereas enzyme analysis identified 11 of 12 carriers. This individual is a carrier of the B1 variant that is known to cause false negative results with enzyme testing. Combined data from 46 non-Jewish TSD carriers revealed that gene sequencing had a higher sensitivity rate than HexA enzyme-based testing (94% versus 87%) in non-Jewish TSD carriers. In our series, approximately 4% of non-Jewish TSD carriers have this mutation. Conclusions: HexA gene sequencing provides a higher sensitivity for TSD carrier detection than HexA based enzyme analysis in non-Jewish patients primarily due to the presence of individuals with the B1 variant.

Cervical cancer screening: hTERC gene amplification detection by FISH in comparison with conventional methods

Aim: To assess the clinical significance of hTERC amplification for cervical cancer screening detected by fluorescence in situ hybridization (FISH) and compare it with that of current screening methods within the same group. Methods: A total of one hundred and nine women were recruited in this study. All of them had liquid-based thin-prep cytologic test (TCT), human papillomavirus (HPV) DNA testing and hTERC gene amplification analysis using interphase two-color FISH. In addition, colposcopically directed biopsy and/or cone biopsy were conducted for definite histopathologic diagnosis for each case. The optimal threashold of hTERC gene amplification by fluorescence in situ hybridization (FISH) were assecced by receiver operating characteristic (ROC) curve. The results of hTERC gene amplification analysis were compared with the cytological analysis, HPV DNA testing and those of subsequent biopsies. Results: Among the 109 patients, 18 were benign lesion, 17 were LSIL, 66 were HSIL and 8 were invasive carcinoma of cervix (ICC). Of them, hTERC-positive cases were found in 0.0% (0/18) of normal specimens, 11.8% (2/17) of LSIL, 72.7% (48/66) of HSIL and 100.0% (8/8) of ICC, respectively. The positive rate of hTERC gene amplification was significantly higher in HSIL and ICC compared with normal and LSIL (all P < 0.01).The optimal cut-off point of percentages of cells with hTERC amplification was determined as 5.5%. Using this threshold the hTERC test reached a much higher specificity(94.3%, 33/35) and a relatively lower sensitivity(77.0%, 57/74) to distinguish benign lesion and LSIL from HSIL and ICC in comparison with HR-HPV test (51.4%;91.9%) and TCT (74.3%;81.1%). Area Under the Curve revealed that hTERC amplification test performed more accurately (area under the curve = 0.857) compared to HPV test (area under the curve = 0.717) and cytology(area under the curve = 0.777) to discriminate HSIL or higher from LSIL or lower. This study also found a significant positive correlation between positive hTERC gain and HR-HPV infection, abnormal cytological or histopathologic lesions (all P < 0.01) in patients with cervical diseases. Conclusion: hTERC amplification testing may be a promising adjunct to screen women for cervical precancer or cancer with high specificity and accuracy.

Wolman Disease in Bulgarian Patients: Selective Genetic Screening in Two Presumable Endemic Regions

Wolman disease is a rare autosomal recessive disorder caused by mutations in the LIPA gene (10q23.31). The LIPA gene encodes lysosomal acid lipase (LAL), which plays a key role in hydrolysis of the cholesteryl esters and triglycerides. Two unrelated families from Bulgaria were referred for genetic testing with clinical diagnosis Wolman disease. Sanger sequencing of all coding exons and exon-intron boundaries of the LIPA gene was performed. The index patients were found to be homozygous for two different mutations in the LIPA gene: a missense mutation, c.260G > T, p.Gly87Val, which affects the enzyme active site and a splice-site change, c.822+1G > A, which most probably destroys the enzyme polypeptide chain. These two completely different types of mutations along the LIPA gene resulted in a very similar phenotype involving liver, kidney, gastrointestinal, muscle and blood disturbances. As consanguinity is not typical for the Bulgarian population, a possible explanation of the homozygosity could be presence of endemic regions for given mutations. To check this hypothesis, selective screening for these mutations was performed in two presumable endemic regions in Bulgaria. Altogether, 100 newborns were screened for p.Gly87Val mutation and the detected carrier frequency was about 1% (1/100), while in the group of 100 newborns screened for the c.822 + 1G > A mutation the detected carrier frequency was 2% (2/100). The results indicate a high recurrence risk of Wolman disease in these particular Bulgarian regions of about 1:10000. These findings are from crucial importance for the inhabitants of the corresponding parts of Bulgaria. They may benefit from early genetic testing and adequate genetic counselling during family planning.

山药块茎生长膨大相关基因的筛选与分析

为筛选山药块茎生长膨大相关基因,采用生物信息学方法,对山药块茎发育前期和中期构建的不同发育阶段抑制性消减杂交(suppression subtractive hybridization,SSH)文库进行分析。结果表明:山药块茎发育前期与中期差异表达基因(differential expression genes,DEGs)序列主要涉及九大类,其中发育调控占比最大(27.1%),其他依次为细胞组织结构(14.0%)、物质代谢(11.2%)、生物合成(4.7%)等。初步筛选出泛素-连接酶体(F-box associated,F-box)、碳酸酐酶(carbonic anhydrase,CAs)、核苷二磷酸激酶(nucleoside diphosphate kinase,NDPK)、氨基酸透性酶(amino acid permease)、糖基转移酶(glycosyl transferase)、α-淀粉酶(α-amylase,AMY)等候选基因,它们可能与细胞增殖、细胞伸长、激素代谢、酸碱环境调节及功能物质代谢物等功能有关,参与调控山药块茎的生长膨大。

川东北地区3089例育龄期人群地中海贫血基因筛查结果分析

目的通过分析地中海贫血基因筛查结果,了解川东北地区育龄期人群中地中海贫血基因携带情况,为本地区地中海贫血的一级和二级防控提供实验室依据。方法回顾性分析2023年度在川北医学院附属医院进行地中海贫血基因筛查的3089例育龄期男女的基因检测、血常规和血红蛋白电泳结果,对地贫基因检测阴性而后两种方法检测结果异常者行罕见地中海贫血基因测序;选取其中22例血常规和血红蛋白电泳结果正常而本院基因检测结果提示为-ɑ3.7杂合缺失的标本进行HKɑɑ及ɑ三联体检测。结果3089标本中共检出370例地中海贫血基因携带者,阳性率为11.98%(370/3089),ɑ-地贫基因携带者194例(52.43%),β-地贫基因携带者166例(44.86%),最常见的基因型为--^(SEA)/ɑɑ、-ɑ^(3.7)/ɑɑ、β^(CD41-42M)/β^(N)、β^(CD17M)/β^(N)和β^(IVS-II-654M)/β^(N);罕见地贫基因测序标本中有1例为ɑɑɑ^(anti4.2),1例为β^(IVS-II-654M)杂合变异,4例为δ-地贫,1例为δ-地贫复合nd-HPFH,3例为结构异常血红蛋白,1例为HBB基因良性变异;PCR结果提示22例待测标本中有4例HKɑɑ。结论本地区育龄人群中的地中海贫血基因携带率较高,基因型复杂,应重视罕见地中海贫血基因和HKɑɑ的检测。

饲养方式对滩羊肌内脂肪沉积影响及相关基因表达差异研究

本试验基于转录组学技术探讨舍饲与放牧条件下,滩羊脂肪沉积的差异及相关表达基因的筛选及分析。试验采用随机区组的试验设计方法,将体况相近的12只4月龄滩羊羯羊随机分为2组,每组6只,分别采用放牧和舍饲的饲养模式。于6月龄屠宰取背最长肌与股二头肌。试验结果表明:舍饲滩羊背最长肌肌内脂肪(IMF)含量显著高于放牧组(P <0.05),放牧组滩羊背最长肌IMF含量为(1.4567±0.0987)%,舍饲组滩羊背最长肌IMF含量为(2.0700±0.1493)%。股二头肌IMF含量舍饲组较放牧组高,但差异不显著。与舍饲组滩羊相比,放牧组滩羊背最长肌与股二头肌饱和脂肪酸含量均低,其中背最长肌己酸(C6:0)、癸酸(C10:0)、肉豆蔻酸(C14:0)、十五烷酸(C15:0)、棕榈油酸(C16:1)、十七烷酸(C17:0)、十七碳烯酸(C17:1)、硬脂酸(C18:0)含量显著低于舍饲组(P <0.05),股二头肌十五烷酸(C15:0)、棕榈油酸(C16:1)、十七烷酸(C17:0)显著低于舍饲组(P <0.05),碳原子数≥18的长链脂肪酸和不饱和脂肪酸含量以放牧组滩羊较高,其中背最长肌二十一烷酸(C21:0)和股二头肌十七碳烯酸(C17:1)含量显著低于舍饲组(P <0.05)。基于转录组学分析得知,与舍饲组相比,放牧组滩羊背最长肌脂肪代谢基因表达量显著下调的有酰基辅酶A硫酯酶7(ACOT7)、脂肪细胞分化转录因子(ADIG)与酰基辅酶A氧化酶2(ACOX2)(P <0.05),显著上调的有溶质载体家族7成员8(SLC7A8)、游离脂肪酸受体4(FFAR4)与胰岛素样生长因子2(IGF2)(P <0.05)。放牧组滩羊股二头肌脂肪代谢基因表达显著下调的有ACOT7、ADIG、脂肪酸结合蛋白4(FABP4)与脂肪酶A(LIPA)(P<0.05),显著上调的有花生四烯酸15-脂加氧酶(ALOX15)与二酰基甘油O-酰基转移酶2(DGAT2)(P <0.05)。

基于重症支气管哮喘差异表达基因及其治疗中药筛选的生物信息学分析

目的:通过生物信息学方法探讨重症支气管哮喘[简称重症哮喘(SA)]的差异表达基因,分析其作用机制,并筛选潜在具有治疗作用的中药及活性成分。方法:在高通量基因表达(GEO)数据库中选取GSE136587和GSE158752数据集,利用R软件对数据集进行差异分析获得差异表达基因,并进行蛋白-蛋白相互作用(PPI)网络分析,筛选核心基因,寻找关键通路和枢纽基因。最后将核心基因提交至Coremine数据库筛选具有潜在治疗作用的中药,并通过《中华医典》检索相关中药方剂。结果:共筛选出466个差异表达基因。通过STRING平台构建PPI网络共筛选包括25 kDa突触关联蛋白(SNAP25)、谷氨酸离子型受体2(GRIA2)、轴突蛋白1(NRXN1)、钾电压门控通道亚家族A成员1(KCNA1)、突触囊泡蛋白1(SYT1)和嗜铬蛋白A(CHGA)等核心靶点25个。基因本体(GO)功能富集显示SA的生物学过程与细胞趋化性和白细胞迁移等有重要关系,京都基因与基因组百科全书(KEGG)富集的通路主要涉及骨髓白细胞迁移、白细胞趋化性、细胞趋化性、白细胞迁移、对外部刺激反应的正向调节和骨髓白细胞活化等信号通路。采用网络药理学方法基于核心靶点筛选得到具有潜在治疗SA作用的中药367种,其中人参、水牛角、全蝎和黄芪等中药涉及多个核心靶点,与SA具有高度相关性,在《中华医典》中检索具有高度相关性的中药,共得到17个潜在具有治疗效果的中药方剂。结论:通过生物信息学筛选SA的潜在标志物和具有治疗作用的中药,为SA早期诊断和发病机制研究提供新的靶点,为其治疗的中药方剂研发提供思路。

产前序贯性筛查遗传性耳聋基因携带者的临床意义分析

目的分析产前序贯性筛查遗传性耳聋基因携带者的临床意义。方法选择2022年5月至12月于首都医科大学附属北京妇产医院进行遗传性耳聋基因突变位点筛查的孕妇9391例,采用微流控芯片法检测遗传性耳聋基因,分析其在孕妇人群中的携带率。对检出GJB2基因和SLC26A4基因变异的孕妇配偶采用靶向高通量测序进行相同致病基因筛查,当夫妻双方均检出同一基因致病变异时建议对胎儿进行致病基因的产前诊断。对于检出GJB3基因变异孕妇,建议其进行听力学评估和遗传咨询及随访。对检出线粒体12S rRNA基因变异孕妇进行遗传咨询及用药指导。结果9391例孕妇中检出遗传性耳聋基因突变携带者1002例,携带率为10.67%;GJB2、SLC26A4、GJB3及线粒体12S rRNA突变的携带率分别为7.93%、1.99%、0.28%和0.15%。突变经Sanger测序验证,符合率达99.80%。293例GJB2基因或SLC26A4基因突变携带者的配偶进行了序贯性筛查,其中4对夫妇双方检出携带相同基因上的致病突变位点,经羊水细胞测序,1例为GJB2 c.235 del C纯合突变,1例为SLC26A4 c.919-2 A>G纯合突变,其余2例均为杂合突变。结论产前序贯性筛查耳聋基因携带者不仅可以筛查遗传性耳聋基因突变的携带者,还可以发现药物性耳聋敏感性个体,从而实现耳聋胎儿早期诊断、早期干预和及时预警。

基于机器学习的胃癌关键基因筛选及预测模型构建

目的:为了验证与胃癌相关的遗传特征,提出一种混合式特征选择方法确定靶基因,进一步分析其意义并建立新的诊断预测模型。方法:对原始胃癌数据进行生物信息学方差分析,使用随机森林、支持向量机的递归特征消除、套索算法等机器学习方法筛选胃癌相关基因,对结果取交集,获得关键基因集。进行富集分析,确定关键基因并验证;依据关键基因构建基于多层感知器(MLP)、逻辑回归、决策树等8种机器学习分类算法的诊断预测模型。结果:混合式的特征选择方法筛选出的关键基因与肿瘤发生和发展的生物学过程密切相关;8个关键基因(TXNDC5、BMP8A、ONECUT2、COL10A1、JCHAIN、INHBA、LCTL和TRIM59)被确定为诊断效果较好的胃癌潜在标志物;根据8种分类模型的ROC曲线和准确率结果可知,MLP为最佳胃癌预测模型,其准确率高达97.77%,比他人构建的Xgboost胃癌预测模型准确率高出3.83%。结论:本研究获得了诊断和预防胃癌的8个关键基因,并建立了最佳预后模型。

产甘油假丝酵母25S rRNA甲基转移酶BMT5对乙酸胁迫耐受的影响及应用

挖掘功能基因,提升菌株环境胁迫耐受性,对高效利用纤维素水解液产乙醇至关重要。产甘油假丝酵母(Candida glycerinogenes)是具有多重抗逆性的工业菌株,经基因组文库筛选,获得能够提高酵母乙酸耐受性的rRNA甲基转移酶基因CgBmt5。在酿酒酵母(Saccharomyces cerevisiae)中表达CgBmt5提高了乙酸耐受性,重组菌在胁迫下乙醇产量为60.5 g/L,提高17.7%。在C.glycerinogenes中过表达CgBmt5后,乙酸胁迫下乙醇产量提高17.6%,2种过表达的单位菌体产量、底物转化率、生产强度均有提高。进一步将C.glycerinogenes过表达菌应用于纤维素水解液发酵,乙醇产量提高71.7%,转化率提高65.0%,生产强度提高155.7%。乙酸胁迫下,过表达菌中脂质过氧化水平降低,且过氧化氢酶(catalase,CAT)和超氧化物歧化酶(superoxide dismutase,SOD)活性增加;转录分析发现,Pfk1和Arg3基因上调,Gpd1和Cox3下调,表明CgBmt5可能通过降低脂质过氧化水平、提高SOD和CAT活性及影响糖代谢和精氨酸合成促进菌株的乙酸耐受和胁迫下的发酵能力。该研究为酵母的胁迫耐受机制和纤维素乙醇技术发展提供了新的生物材料。

基于Fosmid文库筛选山羊瘤胃微生物源蛋白酶基因及其表达验证

【目的】利用Fosmid文库功能筛选法,获得山羊瘤胃微生物源蛋白酶基因并进行原核表达。【方法】利用功能底物筛选法从山羊瘤胃微生物源Fosmid文库中筛选具有蛋白酶活性的克隆子,对其进行Illumina二代测序,对预测到的基因进行功能注释,根据基因丰度结果确定后续研究的功能基因。利用大肠杆菌BL21(DE3)对功能基因进行诱导表达,对表达产物进行酶活性测定。通过CRISPR/Cas9基因编辑技术,将密码子优化后的功能基因分别敲入枯草芽孢杆菌C6基因组ctc位点并进行表达验证。【结果】从Fosmid文库1700个克隆子中筛选到1个具有蛋白酶活性的阳性克隆Pro4-C5。通过二代测序技术,鉴定出3个潜在的蛋白酶基因gene0833(内肽酶,EC编号:EC3.4.21.53)、gene0196(金属内肽酶,EC编号:EC3.4.24)和gene0585(羧肽酶,EC编号:EC3.4.17.14)以及1个L-天冬酰胺酶基因(gene0683,EC编号:EC3.5.1.1)。以pET-28a(+)为表达载体,通过大肠杆菌BL21(DE3)原核诱导表达发现,gene0585和gene0196未表达;gene0833表达的蛋白分子质量为87 ku,蛋白酶活性为10.45 U/mL;gene0683表达的蛋白分子质量为37 ku,L-天冬酰胺酶活性为88.52 U/mL,同时发现该蛋白也具有蛋白酶活性,酶活性为5.25 U/mL。将密码子优化后的gene0683和gene0833定点敲入枯草芽孢杆菌C6基因组中表达发现,gene0833未表达,gene0683表达的蛋白酶活性为109.72 U/mL,相比原始菌株(100.97 U/mL)显著提高了8.67%(P<0.01);L-天冬酰胺酶活性为31.63 U/mL,相比原始菌株(22.79 U/mL)显著提高了30.06%(P<0.01)。【结论】从山羊瘤胃微生物源Fosmid文库中筛选和鉴定出了2个具有蛋白酶活性的功能基因(gene0833和gene0683),均来源于微小杆菌属(Exiguobacterium),其中gene0683在大肠杆菌和枯草芽孢杆菌中的表达产物具有较高的蛋白酶和L-天冬酰胺酶酶活性。

Kartagener综合征合并分泌性中耳炎患者的基因诊断

目的应用基因筛查技术进行kartagener综合征合并慢性分泌性中耳炎患者的基因诊断。方法将2010年1月至2013年12月就诊于解放军总医院耳鼻咽喉头颈外科的8例kartagener综合征合并慢性分泌性中耳炎患者作为研究对象。采集病史、绘制家系图,进行纯音测听、声导纳检查;应用sanger测序进行热点基因筛查,并对1例患者及其父母应用全外显子组测序进行基因筛查,应用Pomol软件对候选基因编码蛋白进行3D-蛋白结构模拟。结果 8例患者均伴有慢性分泌性中耳炎。应用sanger测序进行热点基因筛查的患者,均未发现所筛查位点基因突变;应用全外显子组测序的1例患者发现c.8030G>A(p.R2677Q)突变,位于基因DNAH5。结论慢性分泌性中耳炎患者应考虑kartagener综合征的可能性,以免漏诊误诊,基因筛查为该病提供了分子遗传学诊断证据。

分子生物技术在家族性高胆固醇血症诊疗中的进展

家族性高胆固醇血症是一种遗传性脂质代谢疾病,其主要特征是患者低密度脂蛋白胆固醇明显升高,进而增加罹患动脉粥样硬化性心血管疾病的风险,对个体、家庭和社会带来严重影响。分子生物技术的发展对家族性高胆固醇血症患者筛查、诊断和治疗均至关重要。本文系统总结了基因检测技术,特别是第二代基因检测技术的发展提高了家族性高胆固醇血症筛查的效率和诊断的准确性,但同时也引入了许多意义不明的突变。与药物治疗不同,转基因技术或基因编辑技术可纠正家族性高胆固醇血症患者体内的分子缺陷,有望在分子层面根治此病。但相关临床研究结果显示这些治疗方式存在肝损伤等不良反应,并且仍需长期随访明确其疗效。因此,本文综述了基因检测和基因治疗等分子生物技术在家族性高胆固醇血症诊疗中的最新进展,旨在为后续该病的诊断和治疗相关研究提供新的视角。

木薯SAP11基因的功能分析

[目的]木薯Manihot esculenta Crantz是全球热带地区重要的粮食作物和经济作物,在生长发育过程中极易遭受低温、干旱、盐碱等非生物胁迫而导致减产。胁迫相关蛋白(Stress-associated protein,SAP)是一类新型的A20/AN1锌指蛋白,在模式作物应对多种非生物胁迫过程中发挥重要作用。目前,SAP基因在木薯应对非生物胁迫中的生物学功能尚不明确。本研究旨在分析木薯SAP家族成员的蛋白结构特征和表达模式,以及MeSAP11的互作蛋白,为进一步解析该家族基因在木薯抗逆中的功能提供理论支撑。[方法]利用生物信息学技术对木薯SAP家族成员的进化关系、蛋白基序信息以及时空表达模式开展系统分析。同时,通过qRT-PCR研究各基因成员在不同组织中的特异表达以及对不同非生物胁迫的响应。进一步运用酵母双杂交结合高通量测序技术获得与MeSAP11相互作用的蛋白及对应生物学通路。[结果]木薯SAP基因家族共6个大类16个成员,该家族成员在木薯根部和叶片中表达量较高,部分家族成员的表达在低温和盐胁迫中显著上调,在干旱、钾饥饿和氮饥饿显著下调。MeSAP11的表达受不同胁迫条件的显著调控,亚细胞定位结果表明MeSAP11蛋白主要定位在细胞核。利用酵母双杂交筛库技术筛选到256个与MeSAP11互作的蛋白,KEGG分析表明这些互作基因主要参与蛋白泛素化降解、内质网蛋白质加工通路等途径,暗示MeSAP11可能通过上述通路发挥功能。[结论]木薯SAP家族大部分成员显著响应低温、干旱、高盐以及缺氮、缺钾胁迫,研究结果为进一步研究MeSAP11在木薯响应非生物胁迫过程中的功能并解析其调控网络奠定了基础。下一步将把MeSAP11基因列为调控非生物逆境变化的候选基因开展深入研究。

孕前耳聋基因筛查伦理问题分析及应对措施

耳聋基因筛查是预防遗传性耳聋的重要手段,日益受到社会关注。然而,其应用过程中伴随着诸多伦理问题:价格较高导致资源分配不均,部分人群无法公平享受此项筛查服务;检测结果的不准确性侵犯受检者的健康权;知情同意落实不到位,受检者权益难以保障;胎儿选择权引发伦理争议;隐私泄露风险不容忽视;专职遗传咨询人才匮乏,咨询质量参差不齐;耳聋基因歧视现象亦存在。提出应该加大社会投入、保障受检者的健康权、规范知情同意、尊重受检者选择权、保护受检者隐私权、加强遗传咨询师队伍建设、提高公众认知度,消除基因歧视应对措施。