四膜虫(Tetrahymena shanghaiensis)大核核仁与去膜大核能诱导非细胞体系核重建

外源DNA或染色质在非洲爪蟾卵提取物中可以诱导细胞核样结构的重建。重建核除不具有核仁样结构外,在其它形态结构上与真核细胞核十分相似。前人的工作表明在重建核中具有核仁前体结构。但可能是由于缺少活性核仁组织者的缘故,这些核仁前体不能相互融合形成新生核仁。那么活性核仁组织者在重建核中是否能发挥其功能呢?为了研究这一问题,我们提取纯化了四膜虫的大核与大核的周边核仁。进一步去除大核的核被膜,并将去除核被膜的大核与大核核仁分别加入非洲爪赡卵非细胞体系中。通过电镜超薄切片观察,我们发现无论是与大核染色质相连的周边核仁还是分离纯化的核仁结构在非洲爪赡卵非细胞体系中都不能保持其原有结构特征,而是发生了典型核重建变化,并且在诱导形成的重建核中也看不到核仁样结构。这些结果说明具有活性的核仁组织者在加入非洲爪蟾卵提取物后既不能继续保持其原有的RNA转录功能也不能诱导新的核仁的出现。     

In vitro nuclear assembly with affinity-purified nuclear envelope precursor vesicle fractions, PV1 and PV2.

Nuclear envelope precursor vesicles were affinity purified from a Xenopus egg extract by a chromatin binding method. Vesicles bound to chromatin at 4 degrees C were dissociated with a high salt buffer and further fractionated into nuclear envelope precursor vesicle fractions 1 (PV1) and 2 (PV2) by differential centrifugation. PV1 contained larger vesicles. When chromatin was incubated in a Xenopus egg cytosol fraction supplemented with PV1, vesicles bound to chromatin, fused with each other, formed a bilayered nuclear envelope, and assembled into spherical small nuclei. However, the thus assembled nuclei did not grow to the normal size. Nuclear pore complexes were not found on the thus assembled nuclei. On the other hand, PV2 contained smaller vesicles. PV2 vesicles bound to chromatin, fused little with each other in the Xenopus egg cytosol fraction, and no nuclei were assembled. When PV1 supplemented with PV2 was used for the nuclear assembly reaction, the assembled nuclei grew to the normal size. Nuclear pore complexes existed in the thus assembled nuclear envelopes. These results suggested that 1) two vesicle populations, PV1 and PV2, are necessary for the assembly of normal sized nuclei, 2) PV1 contains a chromatin targeting molecule(s) and membrane fusion machinery, 3) PV2 contains a chromatin targeting molecule(s) and a molecule(s) necessary for nuclear pore complex assembly, and 4) PV1 has the ability to assemble a nuclear membrane, and PV2 is necessary for the assembly of nuclear pore complexes and for nuclei to grow to the normal size. An in vitro nuclear assembly system constituted with affinity-purified vesicle fractions, PV1 and PV2, was established.     

应用大肠杆菌染色素DNA在非洲爪蟾卵提取物实现诱导非细胞体系…

近年来我们实验室已成功地利用细胞核体外组装的实验模式,将多种生物的ＤＮＡ在非洲爪蟾卵提取物中实现了非细胞体系核装配。但亲缘关系最远的原核生物的染色体ＤＮＡ是否也能在此真核体系中进行核装配一直没有报道。我们以大肠杆菌染色体ＤＮＡ为材料,研究了它诱导的非细胞体系核装置。在光镜与电镜水平观察了核装配的过程。显微分光光度计扫描显示ＤＮＡ片段在核装配过程中经历了凝集－去凝集的变化。证明大肠杆菌染色体ＤＮＡ也     

Chromosome architecture can dictate site-specific initiation of DNA replication in Xenopus egg extracts

Xenopus egg extracts initiate DNA replication specifically at the dihydrofolate reductase (DHFR) origin locus with intact nuclei from late G1-phase CHO cells as a substrate, but at nonspecific sites when purified DNA is assembled by the extract into an embryonic nuclear structure. Here we show that late G1-phase CHO nuclei can be cycled through an in vitro Xenopus egg mitosis, resulting in the assembly of an embryonic nuclear envelope around G1-phase chromatin. Surprisingly, replication within these chimeric nuclei initiated at a novel specific site in the 5' region of the DHFR structural gene that does not function as an origin in cultured CHO cells. Preferential initiation at this unusual site required topoisomerase II-mediated chromosome condensation during mitosis. Nuclear envelope breakdown and reassembly in the absence of chromosome condensation resulted in nonspecific initiation. Introduction of condensed chromosomes from metaphase- arrested CHO cells directly into Xenopus egg extracts was sufficient to elicit assembly of chimeric nuclei and preferential initiation at this same site. These results demonstrate clearly that chromosome architecture can determine the sites of initiation of replication in Xenopus egg extracts, supporting the hypothesis that patterns of initiation in vertebrate cells are established by higher order features of chromosome structure.     

Incorporation of DUF/FACT into chromatin enhances the accessibility of nucleosomal DNA

DNA unwinding factor (DUF) was discovered as an essential DNA replication factor in Xenopus egg extracts. DUF consists of an HMG protein and a homolog of Cdc68p/Spt16p, and has the capability of unwinding dsDNA. Here we have examined the interaction of DUF with chromatin. DUF was incorporated into chromatin assembled from sperm heads and from plasmid DNA in egg extracts. It was revealed that the chromatin assembled in egg extracts immunodepleted of DUF is less sensitive to micrococcal nuclease (NNase) digestion than that assembled in control extracts, indicating that chromatin containing DUF has more decompact structure than that without DUF. Also we found that DUF has a high affinity for core histones in vitro. We suggest that the function of DUF may be to make the chromatin structure accessible to replication factors.     

Assembly in vitro of nuclei active in nuclear protein transport: ATP is required for nucleoplasmin accumulation.

DNA (from bacteriophage lambda or Xenopus) is assembled into nucleus-like structures when mixed with an extract from Xenopus eggs. Electron microscopy shows that these in vitro-reconstituted nuclei possess complete double membranes; some, but not all, nuclei have pore complexes. Extracts depleted of their endogenous ATP (by addition of ATPases) cannot assemble nuclear envelopes visible by phase-contrast microscopy. Once synthetic nuclei are assembled, however, they are stable when ATP is subsequently depleted, although their chromatin becomes condensed. About one-fourth of the nuclei assembled in vitro from lambda DNA accumulate nuclear proteins such as nucleoplasmin. ATP depletion blocks nucleoplasmin accumulation both in vitro, in pre-assembled synthetic nuclei, and in vivo, in the nucleus of microinjected oocytes. However, nucleoplasmin previously accumulated by reconstituted nuclei or by the germinal vesicle in microinjected oocytes is retained after ATP depletion.     

Observation of nuclei reassembled from demembranated Xenopus sperm nuclei and analysis of their lamina components

A cell-free preparation obtained from extracts of activated Xenopus laevis eggs induced chromatin decondensation and nuclear formation from demembranated Xenopus sperm nuclei.Electron microscopy revealed that the reassembled nucleus had a double-layered nuclear memblane,nuclear pore complexes,and decondensed chromatin etc.Indirect immunofluorescence analysis demonstrated the presence of lamina in newly assembled nuclei.Western-blotting results showed that lamin LII was present in egg extracts and in lamina of the reassembled nuclei which were previously reported to contain only egg derived lamin LIII.     

Nuclear reconstitution in vitro: stages of assembly around protein-free DNA

We have developed a cell-free system derived from Xenopus eggs that reconstitutes nuclear structure around an added protein-free substrate (bacteriophage lambda DNA). Assembled nuclei are morphologically indistinguishable from normal eukaryotic nuclei: they are surrounded by a double membrane containing nuclear pores and are lined with a peripheral nuclear lamina. Nuclear assembly involves discrete intermediate steps, including nucleosome assembly, scaffold assembly, and nuclear membrane and lamina assembly, indicating that during reconstitution nuclear organization is assembled one level at a time. Topoisomerase II inhibitors block nuclear assembly. Lamin proteins and membrane vesicles bind to chromatin late in assembly, suggesting that these components do not interact with chromatin that is formed early in assembly. Reconstituted nuclei replicate their DNA; replication begins only after envelope formation has initiated, indicating that envelope attachment may be important for regulating replication.     

Nuclear proteins of quiescent Xenopus laevis cells inhibit DNA replication in intact and permeabilized nuclei

Quiescent cells from adult vertebrate liver and contact-inhibited or serum-deprived tissue cultures are active metabolically but do not carry out nuclear DNA replication and cell division. Replication of intact nuclei isolated from either quiescent Xenopus liver or cultured Xenopus A6 cells in quiescence was barely detectable in interphase extracts of Xenopus laevis eggs, although Xenopus sperm chromatin was replicated with approximately 100% efficiency in the same extracts. Permeabilization of nuclei from quiescent Xenopus liver or cultured Xenopus epithelial A6 cells did not facilitate efficient replication in egg extracts. Moreover, replication of Xenopus sperm chromatin in egg extracts was strongly inhibited by a soluble extract of isolated Xenopus liver nuclei; in contrast, complementary-strand synthesis on single-stranded DNA templates in egg extracts was not affected. Inhibition was specific to endogenous molecules localized preferentially in quiescent as opposed to proliferating cell nuclei, and was not due to suppression of cdk2 kinase activity. Extracts of Xenopus liver nuclei also inhibited growth of sperm nuclei formed in egg extracts. However, the rate and extent of decondensation of sperm chromatin in egg extracts were not affected. The formation of prereplication centers detected by anti-RP-A antibody was not affected by extracts of liver nuclei, but formation of active replication foci was blocked by the same extracts. Inhibition of DNA replication was alleviated when liver nuclear extracts were added to metaphase egg extracts before or immediately after Ca++ ion-induced transition to interphase. A plausible interpretation of our data is that endogenous inhibitors of DNA replication play an important role in establishing and maintaining a quiescent state in Xenopus cells, both in vivo and in cultured cells, perhaps by negatively regulating positive modulators of the replication machinery.     

应用HeLa细胞染色体(簇)和蛙卵提取物进行细胞核体外重建试验

将HeLa细胞中期染色体(簇)、非洲爪蟾卵提取物和ATP再生体系混合温育,能够促使细胞核自发重建。在此非细胞体系中重建的细胞核处于一般细胞核大小范围,具有典型的双层核膜,核孔复合体、染色质、核纤层、核骨架等结构,核重建具有一个明显的过程;发现环形片层通过与核膜融合方式参与核膜和核孔复合体组装。     

Preparation and use of Xenopus egg extracts to study DNA replication and chromatin associated proteins

The use of cell-free extracts prepared from eggs of the South African clawed toad, Xenopus laevis, has led to many important discoveries in cell cycle research. These egg extracts recapitulate the key nuclear transitions of the eukaryotic cell cycle in vitro under apparently the same controls that exist in vivo. DNA added to the extract is first assembled into a nucleus and is then efficiently replicated. Progression of the extract into mitosis then allows the separation of paired sister chromatids. The Xenopus cell-free system is therefore uniquely suited to the study of the mechanisms, dynamics and integration of cell cycle regulated processes at a biochemical level. In this article we describe methods currently in use in our laboratory for the preparation of Xenopus egg extracts and demembranated sperm nuclei for the study of DNA replication in vitro. We also detail how DNA replication can be quantified in this system. In addition, we describe methods for isolating chromatin and chromatin-bound protein complexes from egg extracts. These recently developed and revised techniques provide a practical starting point for investigating the function of proteins involved in DNA replication.     

利用非洲爪蟾精子染色质和卵提取物在体外重建细胞核

应用非洲爪蟾去膜精子染色质和卵提取物成功地进行了细胞核本外重建。当精子染色质加入卵提取物后,首先发生染色质去浓缩作用,染色质整体结构膨胀;膜泡在膨胀的染色质外周聚集并逐渐彼此融合成双层膜;核孔复合体以某种未知方式组装入双层膜而形成核膜结构,并逐渐完全覆盖膨大的染色质,最终形成典型的间期核结构。     

p97 ATPase, an ATPase involved in membrane fusion, interacts with DNA unwinding factor (DUF) that functions in DNA replication

DNA unwinding factor (DUF) unwinds duplex DNA and is supposed to function in DNA replication in Xenopus egg extracts. Here we report the isolation and analysis of a DUF-interacting factor. By immunoprecipitation, we found that p97 ATPase (p97) interacts with DUF in Xenopus egg extracts. This interaction was confirmed by the in vitro binding of purified p97 with DUF. When sperm chromatin was added to Xenopus egg extracts to construct nuclei active in DNA replication, p97 was incorporated into the nuclei. These data suggest that the complex of DUF and p97 may function in DNA replication.     

Nuclear formation in a Drosophila cell-free system

A cell-free preparation obtained from 0- to 5-h-old Drosophila melanogaster embryos induces chromatin decondensation and nuclear formation from demembranated Xenopus sperm. Newly formed nuclei have a peripheral lamina, a double membrane, and structures resembling pore complexes. Indirect immunofluorescence analyses demonstrate the association of Drosophila lamins and DNA topoisomerase II with newly assembled nuclei.     

Ultrastructural characterization of RPA-containing domains in nuclei assembled in Xenopus egg extracts

We describe novel structural domains in in vitro reconstituted Xenopus sperm nuclei, which we term RPA bodies; RPA is the only known marker of these structures. These bodies contain DNA and represent special chromatin domains as seen by transmission electron microscopy. We show that RPA bodies exhibit a similar ultrastructure in nuclei assembled in high-speed supernatant (HSS) of Xenopus egg extract and in nuclei assembled in HSS supplemented with low-speed supernatant (HSS + LSS nuclei). Moreover, RPA bodies are also formed when sperm chromatin containing double-stranded DNA breaks is incubated with HSS of egg extracts. RPA bodies appear to be compartmentalized. By immunoelectron microscopy we show that RPA is preferentially localized at the periphery of the bodies where DNA synthesis also occurs in HSS + LSS nuclei.     

Aphidicolin triggers a block to replication origin firing in Xenopus egg extracts

DNA replication origins are located at random with respect to DNA sequence in Xenopus early embryos and on DNA replicated in Xenopus egg extracts. We have recently shown that origins fire throughout the S phase in Xenopus egg extracts. To study the temporal regulation of origin firing, we have analyzed origin activation in sperm nuclei treated with the DNA polymerase inhibitor aphidicolin. Sperm chromatin was incubated in Xenopus egg extracts in the presence of aphidicolin and transferred to a fresh extract, and digoxigenin-dUTP and biotin-dUTP were added at various times after aphidicolin release to selectively label early and late replicating DNA. Molecular combing analysis of single DNA fibers showed that only a fraction of potential origins were able to initiate in the presence of aphidicolin. After release from aphidicolin, the remaining origins fired asynchronously throughout the S phase. Therefore, initiation during the S phase depends on the normal progression of replication forks assembled at earlier activated origins. Caffeine, an inhibitor of the checkpoint kinases ATR and ATM, did not relieve the aphidicolin-induced block to origin firing. We conclude that a caffeine-insensitive intra-S phase checkpoint regulates origin activation when DNA synthesis is inhibited in Xenopus egg extracts.