剂量补偿和MSL复合物研究进展

剂量补偿效应(Dosage compensation effect)广泛存在于两性真核生物,是基于性别决定、平衡不同性别间基因转录水平的遗传效应。MSL复合物(Male-specific lethal complex)是果蝇剂量补偿机制的核心,它乙酰化雄性果蝇X染色体上一些特定的位点,双倍激活X连锁活跃基因的转录,从而弥补雄性果蝇只具有单一条X染色体的不足。目前,已对果蝇MSL复合物各主要成分进行了结构分析,大体了解了各组分间的相互作用位点,并对该复合物的识别机制进行了大量的研究。与果蝇不同,哺乳动物是通过雌性个体一条X染色体的失活来实现剂量补偿。虽然哺乳动物MSL复合物的组成已被鉴定,但对其功能的研究还处于初步阶段。迄今为止,对硬骨鱼类剂量补偿及MSL复合物的研究极少。文章概括了线虫、果蝇和哺乳动物各物种剂量补偿机制的异同,综述了果蝇MSL复合物及其剂量补偿机制作用机理的研究进展,并提出有待解决的问题,同时利用同线性分析发现了不同鱼类msl3基因的多样性,为今后继续研究各物种的剂量补偿机制提供基础资料和研究方向。     

剂量补偿和MSL复合物研究进展

剂量补偿效应(Dosage compensation effect)广泛存在于两性真核生物, 是基于性别决定、平衡不同性别间基因转录水平的遗传效应。MSL复合物(Male-specific lethal complex)是果蝇剂量补偿机制的核心, 它乙酰化雄性果蝇X染色体上一些特定的位点, 双倍激活X连锁活跃基因的转录, 从而弥补雄性果蝇只具有单一条X染色体的不足。目前, 已对果蝇MSL复合物各主要成分进行了结构分析, 大体了解了各组分间的相互作用位点, 并对该复合物的识别机制进行了大量的研究。与果蝇不同, 哺乳动物是通过雌性个体一条X染色体的失活来实现剂量补偿。虽然哺乳动物MSL复合物的组成已被鉴定, 但对其功能的研究还处于初步阶段。迄今为止, 对硬骨鱼类剂量补偿及MSL复合物的研究极少。文章概括了线虫、果蝇和哺乳动物各物种剂量补偿机制的异同, 综述了果蝇MSL复合物及其剂量补偿机制作用机理的研究进展, 并提出有待解决的问题, 同时利用同线性分析发现了不同鱼类msl3基因的多样性, 为今后继续研究各物种的剂量补偿机制提供基础资料和研究方向。     

Multiple classes of MSL binding sites target dosage compensation to the X chromosome of Drosophila

MSL complexes bind hundreds of sites along the single male X chromosome to achieve dosage compensation in Drosophila. Previously, we proposed that approximately 35 "high-affinity" or "chromatin entry" sites (CES) might nucleate spreading of MSL complexes in cis to paint the X chromosome. This was based on analysis of the first characterized sites roX1 and roX2. roX transgenes attract MSL complex to autosomal locations where it can spread long distances into flanking chromatin. roX1 and roX2 also produce noncoding RNA components of the complex. Here we identify a third site from the 18D10 region of the X chromosome. Like roX genes, 18D binds full and partial MSL complexes in vivo and encompasses a male-specific DNase I hypersensitive site (DHS). Unlike roX genes, the 510 bp 18D site is apparently not transcribed and shows high affinity for MSL complex and spreading only as a multimer. While mapping 18D, we discovered MSL binding to X cosmids that do not carry one of the approximately 35 high-affinity sites. Based on additional analyses of chromosomal transpositions, we conclude that spreading in cis from the roX genes or the approximately 35 originally proposed "entry sites" cannot be the sole mechanism for MSL targeting to the X chromosome.     

Modulation of MSL1 abundance in female Drosophila contributes to the sex specificity of dosage compensation.

Dosage compensation in Drosophila is the mechanism by which X-linked gene expression is made equal in males and females. Proper regulation of this process is critical to the survival of both sexes. Males must turn the male-specific lethal (msl)-mediated pathway of dosage compensation on and females must keep it off. The msl2 gene is the primary target of negative regulation in females. Preventing production of MSL2 protein is sufficient to prevent dosage compensation; however, ectopic expression of MSL2 protein in females is not sufficient to induce an insurmountable level of dosage compensation, suggesting that an additional component is limiting in females. A candidate for this limiting factor is MSL1, because the amount of MSL1 protein in females is reduced compared to males. We have identified two levels of negative regulation of msl1 in females. The predominant regulation is at the level of protein stability, while a second regulatory mechanism functions at the level of protein synthesis. Overcoming these control mechanisms by overexpressing both MSL1 and MSL2 in females results in 100% female-specific lethality.     

The Sec61p complex mediates the integration of a membrane protein by allowing lipid partitioning of the transmembrane domain

We have investigated how the transmembrane (TM) domain of a membrane protein is cotranslationally integrated into the endoplasmic reticulum. We demonstrate that the Sec61p channel allows the TM domain to bypass the barrier posed by the polar head groups of the lipid bilayer and come into contact with the hydrophobic interior of the membrane. Together with the TRAM protein, Sec61p provides a site in the membrane, at the interface of channel and lipid, through which a TM domain can dynamically equilibrate between the lipid and aqueous phases, depending on the hydrophobicity of the TM domain and the length of the polypeptide segment tethering it to the ribosome. Our results suggest a unifying, lipid-partitioning model which can explain the general behavior of hydrophobic topogenic sequences.     

JIL-1, a chromosomal kinase implicated in regulation of chromatin structure, associates with the male specific lethal (MSL) dosage compensation complex

JIL-1 is a novel chromosomal kinase that is upregulated almost twofold on the male X chromosome in Drosophila. Here we demonstrate that JIL-1 colocalizes and physically interacts with male specific lethal (MSL) dosage compensation complex proteins. Furthermore, ectopic expression of the MSL complex directed by MSL2 in females causes a concomitant upregulation of JIL-1 to the female X that is abolished in msl mutants unable to assemble the complex. Thus, these results strongly indicate JIL-1 associates with the MSL complex and further suggests JIL-1 functions in signal transduction pathways regulating chromatin structure.     

The NAC domain mediates functional specificity of CUP-SHAPED COTYLEDON proteins

In higher plants, although several genes involved in shoot apical meristem (SAM) formation and organ separation have been isolated, the molecular mechanisms by which they function are largely unknown. CUP-SHAPED COTYLEDON (CUC) 1 and CUC2 are examples of two such genes that encode the NAC domain proteins. This study investigated the molecular basis for their activities. Nuclear localization assays indicated that green fluorescent protein (GFP)-CUC proteins accumulate in the nucleus. Yeast one-hybrid and transient expression assays demonstrated that the C-terminal domain (CTD) of the CUC has transactivation activity. Domain-swapping experiments revealed that the functional specificity of the CUC for promoting adventitious shoot formation resides in the highly conserved NAC domain, not in the CTD in which motifs specific to the CUC subfamily are located. Taken together, these observations suggest that CUC proteins transactivate the target genes involved in SAM formation and organ separation through a specific interaction between the NAC domain and the promoter region of the target genes.     

JIL-1 kinase, a member of the male-specific lethal (MSL) complex, is necessary for proper dosage compensation of eye pigmentation in Drosophila

The upregulation of the JIL-1 kinase on the male X chromosome and its association with the male-specific lethal (MSL) complex suggest that JIL-1 may play a role in regulating dosage compensation. To directly test this hypothesis we measured eye pigment levels of mutants in the X-linked white gene in an allelic series of JIL-1 hypomorphic mutants. We show that dosage compensation of w(a) alleles that normally do exhibit dosage compensation was severely impaired in the JIL-1 mutant backgrounds. As a control we also examined a hypomorphic white allele w(e) that fails to dosage compensate in males due to a pogo element insertion. In this case the relative pigment level measured in males as compared to females remained approximately the same even in the most severe JIL-1 hypomorphic background. These results indicate that proper dosage compensation of eye pigment levels in males controlled by X-linked white alleles requires normal JIL-1 function.     

Sequence information within proteasomal prosequences mediates efficient integration of beta-subunits into the 20 S proteasome complex.

The maturation of proteases is governed by prosequences. During the biogenesis of the highly oligomeric eukaryotic 20 S proteasome five different prosequence-containing subunits have to be integrated and processed either by autocatalysis or by neighbouring subunits. To analyse the functional impact of proteasomal prosequences during complex formation, the propeptide of the facultative subunit beta1i/LMP2 was truncated to nine amino acid residues or completely deleted. Additionally, the charged residues within the truncated beta1i/LMP2 version were replaced by neutral residues. While deletion did not affect subunit incorporation, the presence of charged residues within the truncated version of the LMP2 propeptide diminished incorporation efficiency, an effect that was restored upon replacement of the charged amino acids against neutral components. During immunoproteasome formation, incorporation and processing of inducible proteasome beta-subunits are cooperative processes. We demonstrate a linear correlation of the levels of beta2i/MECL1 and beta1i/LMP2 within 20 S proteasomes, suggesting a physical interaction to be the molecular basis for the biased incorporation of both subunits. In the absence of beta5i/LMP7, precursor complexes containing unprocessed beta1i/LMP2 accumulated. The contribution of beta5i/LMP7 on the cooperative formation of a homogeneous population of immunoproteasome is therefore most likely based on an acceleration of the beta1i/LMP2 and potentially of beta2i/MECL1 processing kinetics.