The locus for the medium-chain acyl-CoA dehydrogenase gene on chromosome 1 is highly polymorphic

The gene for medium-chain acyl-CoA dehydrogenase (gene symbol ACADM; enzyme symbol MCAD) has been characterized for restriction fragment length polymorphisms (RFLPs) and mapped by linkage analysis to 4.2 cM from D1S2 and 11.7 cM from PGM1. The three RFLP systems described in detail show significant linkage disequilibrium but define four haplotypes with a PIC of 0.58. This makes ACADM informative for linkage mapping and for clinical genetic studies. By linkage studies, the orientation of these three loci relative to the centromere places ACADM most proximal. This is in direct conflict with the regional assignments of ACADM to 1p31 by in situ hybridization and of PGM1 to 1p22.1 by somatic cell studies. We suggest that this somatic cell localization of PGM1 may be incorrect.     

Current trends in mapping human genes

The human is estimated to have at least 50,000 expressed genes (gene loci). Some information is available concerning about 5000 of these gene loci and about 1900 have been mapped, i.e., assigned to specific chromosomes (and in most instances particular chromosome regions). Progress has been achieved by a combination of physical mapping (e.g., study of somatic cell hybrids and chromosomal in situ hybridization) and genetic mapping (e.g., genetic linkage studies). New methods for both physical and genetic mapping are expanding the armamentarium. The usefulness of the mapping information is already evident; the spin-off from the Human Genome Project (HGP) begins immediately. The complete nucleotide sequence is the ultimate map of the human genome. Sequencing, although already under way for limited segments of the genome, will await further progress in gene mapping, and in particular creation of contig maps for each chromosome. Meanwhile the technology of sequencing and sequence information handling will be developed. It is argued that the HGP is a new form of coordinated, interdisciplinary science; that its primary objective must be seen as the creation of a tool for biomedical research--a source book that will be the basis of study of variation and function for a long time; that the impact on scientist training will be salutary by relieving graduate students of useless drudgery and by training scientists competent in both molecular genetics and computational science; and that the funding of the HGP will have an insignificant negative effect on science funding generally, and indeed may have a beneficial effect through economy of scale and a focusing of attention on the excitement of biology and medical science.     

水稻体细胞杂交研究进展

水稻是世界重要的粮食作物,全世界约有120个国家种植水稻。水稻的近缘或远缘种具有一些优良性状,如抗病、抗虫、抗逆等。将这些性状导入水稻,是科学家们所希望的,但因用普通杂交方法存在交配系统的不亲和性等难题而进展不大。随着组织培养技术的发展,特别是植物原生质体培养技术的日趋成熟,使得人类能够在细胞水平通过体细胞杂交方法实现遗传信息的重组。     

生物技术在油菜种质创新中的应用

从胚拯救、体细胞杂交、体细胞无性系变异和基因工程4方面综述了现代生物技术在油菜种质创新中所取得的成绩.胚挽救技术主要用于克服远缘杂交受精后的不亲和,提高获得杂种的频率;体细胞杂交由于绕过有性杂交不亲和障碍,扩大了杂交范围;基因工程技术借助分子操作技术,达到定向改变目标生物遗传物质的目的,拓宽其种质资源.另外,对限制生物技术在油菜种质创新中的一些因素和其发展前景进行了讨论.     

Intergeneric somatic hybridization and its application to crop genetic improvement

Related or distant species of cultivated cs are a large pool of many desirable genes. Gene transfer from these species through conventional breeding is difficult owing to post- and pre-zygotic sexual incompatibilities. Somatic hybridization via protoplast fusion is a possible alternative for gene transfer from these species to cultivated crops. Since the early days of somatic hybridization many intergeneric somatic hybrids have been developed through symmetric fusion, asymmetric fusion and microfusion. Somatic hybrids are mainly selected by using markers such as specific media or fusion parents with special features, biochemical mutants, antibiotic resistance and complementation strategy. The hybridity of the regenerants is determined based on morphological, cytological and molecular analysis. The inheritance patterns of nuclear and cytoplasmic genomes in the somatic hybrids are diverse. Nuclear DNA from both fusion parents co-exists congruously in some hybrids with translocation and rearrangement of chromosomes, but spontaneous elimination of chromosomes from either or both fusion parents has been observed very often. In asymmetric fusion, chromosome elimination is an important issue that is a complicated process influenced by many factors, such as irradiation dose, phylogenetic relatedness, ploidy level of fusion parent and regenerants. As for chloroplast genome, uniparental segregation is mainly detected, though co-existence is also reported in some cases. The mitochondrial genome, in contrast to chloroplast, undergoes recombination and very frequent rearrangements. Somatic cell fusion has potential applications for crop genetic improvement by overcoming sexual incompatibility or reproductive barriers, and by realizing novel combinations of nuclear and/or cytoplasmic genomes.     

矮牵牛育种研究进展

从常规育种、基因工程育种、体细胞育种和单倍体育种4个方面评述了矮牵牛(Petunia hybrida Vilm.)育种研究进展。国外对矮牵牛育种研究较多,新品种面世推陈出新,国内对其研究则较为薄弱。其常规育种最为成功,不断有新品种推出,基因工程育种也取得了一定成就,已有新品种面世,而体细胞育种及单倍体育种尚无新品种产生,但对这两种方法在育种上应用的可能性和前景作出了一定探索。     

Characterization of radiation/fusion hybrids containing parts of human chromosome 10 and their use in mapping chromosome 10-specific probes.

We have characterized a panel of somatic cell hybrid cell lines which contain different portions of human chromosome 10. Genomic DNA from the somatic cell hybrids was tested for hybridization with each of an ordered set of probes used previously to construct a genetic map of chromosome 10, as well as several additional probes, previously localized by in situ hybridization. Hybridization of an unmapped probe to the cell line DNAs can be used to determine its most likely position on the chromosome relative to the mapped set of probes. Genomic DNA from two of the cell lines has been used to construct region-specific cosmid and bacteriophage libraries, and clones derived from these libraries were localized by hybridization to the panel of hybrid cell lines. Several of these probes reveal restriction fragment length polymorphisms which have been genetically mapped. Three of the probes map near the locus for multiple endocrine neoplasia type 2A, and one of these probes, BG-JC353 (D10S167), maps between RBP3 and TB14.34 (D10S34). Another probe, CRI-J282 (D10S104), is close to the FNRB locus. The panel of hybrid cell lines is thus useful for rapidly localizing unmapped probes and as a source of DNA for the construction of recombinant libraries derived from specific regions of the chromosome.     

Localization of the human UBC polyubiquitin gene to chromosome band 12q24.3

The localization of specific human ubiquitin genes has not been straightforward because of the conservation of the ubiquitin coding sequence and the number of processed pseudogenes. An congruent to 1.4-kb sequence from the 5'-flanking region of the UBC gene has been shown to be unique to that locus and free from dispersed repeat elements. The cloned 5'-flanking fragment has been used to probe Southern blots of DNA obtained from somatic cell hybrid cell lines. These data indicate that the UBC gene is located on chromosome 12. In situ hybridization with the 5'-flanking probe has refined the assignment to the broad chromosomal subband 12q24.3. These data show that the active ubiquitin genes are not clustered and are located on separate chromosomes. In addition, these studies demonstrate the utility of intron or flanking sequence probes in the specific chromosomal assignment of members of highly conserved gene families.     

Inheritance of malignancy in somatic cell hybrids

After a recall of the importance of early basic developments of in vitro established cell lines for investigations on malignant transformation, a survey of essential steps in the study of malignancy by means of somatic cell hybridization is presented. Since the early sixties, in vitro crosses of malignant versus nonmalignant parental cells have provided many experimental models in which mechanisms of expression of malignancy have been approached. Allogenic as well as xenogenic cell matings resulted in tumor-producing or nontumorigenic hybrids which have been analyzed, particularly in terms of karyology in order to determine possible chromosomal patterns linked with inheritance of malignancy and its suppression. The authors discuss the successive concepts devised for interpretation of experimental data, implicating specific genetic "normalizing" information, genetic dosage as well as, more recently, epigenetic and cytoplasmic mechanisms.     

A polymorphic locus on the long arm of chromosome 20 defined by two probes from a single cosmid

Summary Two probes from the random human cosmid c1-37 detect restriction fragment length polymorphisms in humans. The loci revealed by these probes are in linkage equilibrium and constitute a compound polymorphic locus with a polymorphism information content of 0.54. A somatic cell hybrid panel has been used to map the probes to chromosome 20; in situ hybridization studies confirm this localization and indicate that the locus is on 20q13. This is the first polymorphic locus to be assigned to the long arm of chromosome 20.     

Centromere conversion and retention in somatic cell hybrids

The generation of somatic cell hybridization-derived cell lines between highly divergent species affords the opportunity to examine the concept of 'genome dominance' in the context of genetic and epigenetic changes. While whole-scale genome dominance has been well documented in natural hybrids among closely related species, an examination of centromere position and sequence retention in 2 marsupial-eutherian hybrids has revealed a mechanism for 'centromere dominance' as a driving force in the generation of stable somatic cell hybrids following an initial period of genomic instability. While one somatic cell hybrid cell line appeared to retain marsupial centromere sequences which remained competent to recruit the centromere-specific histone variant CENP-A in a Chinese hamster background, fusion events between marsupial and mouse-derived chromosomes in another hybrid line led to a centromere sequence conversion from one species to the other. We postulate that the necessity to maintain an epigenetically defined centromere following genome hybridization may be responsible for retention of specific chromosomes and may result in rapid sequence turnover to facilitate the recruitment of CENP-A containing histones.     

矮牵牛育种研究进展

从常规育种、基因工程育种、体细胞育种和单倍体育种4个方面评述了矮牵牛(Petunia hybrida Vilm.)育种研究进展.国外对矮牵牛育种研究较多,新品种面世推陈出新,国内对其研究则较为薄弱.其常规育种最为成功,不断有新品种推出,基因工程育种也取得了一定成就,已有新品种面世,而体细胞育种及单倍体育种尚无新品种产生,但对这两种方法在育种上应用的可能性和前景作出了一定探索.     

Biotechnological advances in mango (Mangifera indica L.) and their future implication in crop improvement: a review

Biotechnology can complement conventional breeding and expedite the mango improvement programmes. Studies involving in vitro culture and selection, micropropagation, embryo rescue, genetic transformation, marker-assisted characterization and DNA fingerprinting, etc. are underway at different centers worldwide. In vitro culture and somatic embryogenesis of several different genotypes have been achieved. The nucellus excised from immature fruitlets is the appropriate explant for induction of embryogenic cultures. High frequency somatic embryogenesis has been achieved in some genotypes; however, some abnormalities can occur during somatic embryo germination. Embryo rescue from young and dropped fruitlets can improve the hybridization success in a limited flowering season. Protocols for protoplast culture and regeneration have also been developed. In vitro selections for antibiotic tolerance and fungal toxin resistance have been very promising for germplasm screening. Genetic transformation using Agrobacterium tumefaciens has been reported. Genes that are involved with fruit ripening have been cloned and there have been attempts to deliver these genes into plants. DNA fingerprinting and studies on genetic diversity of mango cultivars and Mangifera species are also being conducted at several research stations. The purpose of this review is to focus upon contemporary information on biotechnological advances made in mango. It also describes some ways of overcoming the problems encountered during in vitro propagation of mango.     

Perspectives on methylmalonic acidemia resulting from molecular cloning of methylmalonyl CoA mutase

Methylmalonyl CoA mutase deficiency (methylmalonic acidemia) has been a paradigm for biochemical and somatic cell genetic approaches to human disease. Recently, genes encoding this enzyme have been cloned from several species. These studies have provided information about the primary structure and evolution of this enzyme, the mutations which underlie its deficiency state, and the structure-function determinants which are required for its activity. Gene transfer studies now permit restitution of this enzyme to genetically deficient cells and may enable somatic gene therapy to be undertaken. Molecular genetic studies not only provide more detailed information about this enzyme, but introduce new perspectives on the molecular mechanisms and dynamics of its function and raise new questions about the dyshomeostatic consequences of its deficiency.     

Soma-to-Germline Transmission of RNA in Mice Xenografted with Human Tumour Cells: Possible Transport by Exosomes

Mendelian laws provide the universal founding paradigm for the mechanism of genetic inheritance through which characters are segregated and assorted. In recent years, however, parallel with the rapid growth of epigenetic studies, cases of inheritance deviating from Mendelian patterns have emerged. Growing studies underscore phenotypic variations and increased risk of pathologies that are transgenerationally inherited in a non-Mendelian fashion in the absence of any classically identifiable mutation or predisposing genetic lesion in the genome of individuals who develop the disease. Non-Mendelian inheritance is most often transmitted through the germline in consequence of primary events occurring in somatic cells, implying soma-to-germline transmission of information. While studies of sperm cells suggest that epigenetic variations can potentially underlie phenotypic alterations across generations, no instance of transmission of DNA- or RNA-mediated information from somatic to germ cells has been reported as yet. To address these issues, we have now generated a mouse model xenografted with human melanoma cells stably expressing EGFP-encoding plasmid. We find that EGFP RNA is released from the xenografted human cells into the bloodstream and eventually in spermatozoa of the mice. Tumor-released EGFP RNA is associated with an extracellular fraction processed for exosome purification and expressing exosomal markers, in all steps of the process, from the xenografted cancer cells to the spermatozoa of the recipient animals, strongly suggesting that exosomes are the carriers of a flow of information from somatic cells to gametes. Together, these results indicate that somatic RNA is transferred to sperm cells, which can therefore act as the final recipients of somatic cell-derived information.     

Expanding the Symbiodinium (Dinophyceae,Suessiales) Toolkit Through Protoplast Technology

Dinoflagellates within the genus Symbiodinium are photosymbionts of many tropical reef invertebrates, including corals, making them central to the health of coral reefs. Symbiodinium have therefore gained significant research attention, though studies have been constrained by technical limitations. In particular, the generation of viable cells with their cell walls removed (termed protoplasts) has enabled a wide range of experimental techniques for bacteria, fungi, plants, and algae such as ultrastructure studies, virus infection studies, patch clamping, genetic transformation, and protoplast fusion. However, previous studies have struggled to remove the cell walls from armored dinoflagellates, potentially due to the internal placement of their cell walls. Here, we produce the first Symbiodinium protoplasts from three genetically and physiologically distinct strains via incubation with cellulase and osmotic agents. Digestion of the cell walls was verified by a lack of Calcofluor White fluorescence signal and by cell swelling in hypotonic culture medium. Fused protoplasts were also observed, motivating future investigation into intra‐ and inter‐specific somatic hybridization of Symbiodinium. Following digestion and transfer to regeneration medium, protoplasts remained photosynthetically active, regrew cell walls, regained motility, and entered exponential growth. Generation of Symbiodinium protoplasts opens exciting, new avenues for researching these crucial symbiotic dinoflagellates, including genetic modification.     

Somatic cell transformation into stem cell-like cells induced by different microenvironments

Development of induced pluripotent stem cell (iPSC) technology introduced a novel way to derive pluripotent stem cells, but the genetic manipulation required to generate iPSCs may lead to uncontrolled tumorigenesis of the established cells and thus limit clinical feasibility of the technology. Numerous attempts have been made to date, and alternative reprogramming of somatic cells to reactivate cellular plasticity after differentiation has been suggested. As a result, it had become clear that cell-to-cell interactions and specific acellular environments can be utilized for somatic cell reprogramming. In our previous studies, embryonic stem cell (ESC)-like cells could be derived from transforming ovarian cells and fetal fibroblasts by cell-to-cell interaction or specific cell-mediated microenvironmental factor(s). This cellular event was induced without undertaking genetic manipulation of progenitor cells. Several differences were found between the cellular properties of niche-induced, ESC-like cells and those of genetically manipulated iPSCs and the referenced ESCs. Thus, we provided evidence that terminally differentiated somatic cells either acquire pluripotency-like activity or possess cellular and genetic plasticity under a specific microenvironment and/or cell-to-cell interaction. In this minireview, we discuss derivation of stem cell-like cells under specific microenvironmental conditions in terms of technical perspectives and limitations.     

生殖细胞形成的调控机制及体外培养体系的研究进展

生殖细胞是多细胞生物体遗传物质传递的载体,在发育生物学、临床医学及畜牧业生产等领域中具有广阔的应用前景。原始生殖细胞作为胚胎体内最早出现的生殖细胞,在发育过程中受多种信号因子的诱导,发生特化、迁移、分化及减数分裂,最终形成单倍体的配子,此过程在遗传学和表观遗传学方面受到严格的调控。另外,多能性干细胞向生殖细胞的分化以及生殖细胞的体外培养方面在最近均取得了较大的进展。该文将主要围绕原始生殖细胞,综述最近几年来关于生殖细胞形成中的转录调控及体外培养体系的进展。     

Chromosome-specific alpha satellite DNA: isolation and mapping of a polymorphic alphoid repeat from human chromosome 10

Distinct subsets of the human alpha satellite repetitive DNA family can be found in the centromeric region of each chromosome. Here we described the isolation and mapping of an alpha satellite repeat unit specific for human chromosome 10, using a somatic cell hybrid in which the only human centromere derives from chromosome 10. A hierarchical higher-order repeat unit, consisting of eight tandem approximately 171-bp alphoid monomer units, is defined by six restriction endonucleases. Under high-stringency conditions, a cloned representative of this 8-mer repeat family hybridizes to chromosome 10 only, both by Southern blot analysis of a somatic cell hybrid panel and by in situ hybridization. The probe furthermore detects a polymorphic restriction pattern of the alpha satellite array on chromosome 10. These features will make this probe a valuable genetic marker for studies of the centromeric region of chromosome 10.     

Genetic mapping of the mouse c-fms proto-oncogene to chromosome 18.

Chinese hamster X mouse somatic cell hybrids were analyzed by Southern blot hybridization with a probe specific for the cellular c-fms proto-oncogene. Results demonstrate that Fms, the genetic locus containing this sequence, maps to mouse chromosome 18. Mouse Fms is thus not linked to the same set of genes involved in growth regulation that human FMS is linked to.