Abstract
The JIL-1 kinase localizes to interband regions of Drosophila polytene chromosomes and phosphorylates histone H3 Ser10. Analysis of JIL-1 hypomorphic alleles demonstrated that reduced levels of JIL-1 protein lead to global changes in polytene chromatin structure. Here we have performed a detailed ultrastructural and cytological analysis of the defects in JIL-1 mutant chromosomes. We show that all autosomes and the female X chromosome are similarly affected, whereas the defects in the male X chromosome are qualitatively different. In polytene autosomes, loss of JIL-1 leads to misalignment of interband chromatin fibrils and to increased ectopic contacts between nonhomologous regions. Furthermore, there is an abnormal coiling of the chromosomes with an intermixing of euchromatic regions and the compacted chromatin characteristic of banded regions. In contrast, coiling of the male X polytene chromosome was not observed. Instead, the shortening of the male X chromosome appeared to be caused by increased dispersal of the chromatin into a diffuse network without any discernable banded regions. To account for the observed phenotypes we propose a model in which JIL-1 functions to establish or maintain the parallel alignment of interband chromosome fibrils as well as to repress the formation of contacts and intermingling of nonhomologous chromatid regions.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ananiev EV, Barsky VE (1985) Elementary structures in polytene chromosomes of Drosophila melanogaster. Chromosoma 93:104–112
Barr HJ, Ellison JR (1972) Ectopic pairing of chromosome regions containing chemically similar DNA. Chromosoma 39:53–61
Belmont AS (2001) Visualizing chromosome dynamics with GFP. Trends Cell Biol 11:250–257
Bone JR, Lavender J, Richman R, Palmer MJ, Turner BM, Kuroda MI (1994) Acetylated histone H4 on the male X chromosome is associated with dosage compensation in Drosophila. Genes Dev 8:96–104
Campbell RE, Tour O, Palmer AE, Steinbach PA, Baird GS, Zacharias DA, Tsien RY (2002) A monomeric red fluorescent protein. Proc Natl Acad Sci U S A 99:7877–7882
Clarkson M, Saint R (1999) A His2AvDGFP fusion gene complements a lethal His2AvD mutant allele and provides an in vivo marker for Drosophila chromosome behavior. DNA Cell Biol 18:457–462
Danzer JR, Wallrath LL (2004) Mechanisms of HP1-mediated gene silencing in Drosophila. Development 131:3571–3580
Deuring R, Fanti L, Armstrong JA, Sarte M, Papoulas O, Prestel M, Daubresse G, Verardo M, Moseley SL, Berloco M, Tsukiyama T, Wu C, Pimpinelli S, Tamkun JW (2000) The ISWI chromatin-remodeling protein is required for gene expression and the maintenance of higher order chromatin structure in vivo. Mol Cell 5:355–365
Eggert H, Gortchakov A, Saumweber H (2004) Identification of the Drosophila interband-specific protein Z4 as a DNA-binding zinc-finger protein determining chromosomal structure. J Cell Sci 117:4253–4264
Ghosh M, Mukherjee AS (1987) Effect of salivary gland extract on the X chromosome of salivary gland nuclei of Drosophila melanogaster under in vitro culture condition. Drosoph Inf Serv 66:63–64
Gorman M, Baker BS (1994) How flies make one equal two: dosage compensation in Drosophila. Trends Genet 10:376–380
Gortchakov AA, Eggert H, Gan M, Mattow J, Zhimulev, Saumweber H (2005) Chriz, a chromodomain protein specific for the interbands of Drosophila melanogaster polytene chromosomes. Chromosoma 114:54–66
Hilfiker A, Hilfiker-Kleiner D, Pannuti A, Lucchesi JC (1997) mof, a putative acetyl transferase gene related to the Tip60 and MOZ human genes and to the SAS genes of yeast, is required for dosage compensation in Drosophila. EMBO J 16:2054–2060
Jin Y, Wang Y, Walker DL, Dong H, Conley C, Johansen J, Johansen KM (1999) JIL-1: a novel chromosomal tandem kinase implicated in transcriptional regulation in Drosophila. Mol Cell 4:129–135
Jin Y, Wang Y, Johansen J, Johansen KM (2000) JIL-1, a chromosomal kinase implicated in regulation of chromatin structure, associates with the MSL dosage compensation complex. J Cell Biol 149:1005–1010
Lindsley DL, Zimm GG (1992) The genome of Drosophila melanogaster. Academic, New York
Mortin LI, Sedat JW (1982) Structure of Drosophila polytene chromosomes. Evidence for a toroidal organization of the bands. J Cell Sci 57:73–113
Pandey R, Heidman S, Lehner CF (2004) Epithelial re-organization and dynamics of progression through mitosis in Drosophila separase complex mutants. J Cell Res 118:733–742
Rath U, Wang D, Ding Y, Xu Y-Z, Qi H, Blacketer MJ, Girton J, Johansen J, Johansen KM (2004) Chromator, a novel and essential chromodomain protein interacts directly with the putative spindle matrix protein Skeletor. J Cell Biochem 93:1033–1047
Roberts DB (1986) In: Drosophila: a practical approach. IRL, Oxford, 295 pp
Schwartz YB, Demakov SA, Zhimulev IF (2001) Polytene chromosome interband DNA is organized into nucleosomes. Mol Genet Genomics 265:311–315
Semeshin VF, Belyaeva ES, Shloma VV, Zhimulev IF (2004) Electron microscopy of polytene chromosomes. Methods Mol Biol 247:305–324
Wang Y, Zhang W, Jin Y, Johansen J, Johansen KM (2001) The JIL-1 tandem kinase mediates histone H3 phosphorylation and is required for maintenance of chromatin structure in Drosophila. Cell 105:433–443
West AG, Gaszner M, Felsenfeld G (2002) Insulators: many functions, many mechanisms. Genes Dev 16:271–288
Wolffe AP, Hayes JJ (1999) Chromatin disruption and modification. Nucleic Acids Res 27:711–720
Zhang W, Jin Y, Ji Y, Girton J, Johansen J, Johansen KM (2003) Genetic and phenotypic analysis of alleles of the Drosophila chromosomal JIL-1 kinase reveals a functional requirement at multiple developmental stages. Genetics 165:1341–1354
Zhimulev IF (1996) Morphology and structure of polytene chromosomes. Adv Genet 34:1–497
Zhimulev IF, Belyaeva ES, Semeshin VF, Koryakov DE, Demakov SA, Demakova OV, Pokholkova GV, Andreyeva EN (2004) Polytene chromosomes: 70 years of genetic research. Int Rev Cytol 241:203–275
Acknowledgements
We thank members of the laboratory for discussion, advice, and critical reading of the manuscript. We also wish to acknowledge Ms. V. Lephart for maintenance of fly stocks, Mr. Laurence Woodruff for technical assistance, and Ms. Mary Sue Mayes and Dr. Ted Huiatt for assistance with the EM. We especially thank Dr. L. Wallrath for providing the GFP–lacI transgenic stock 128.1 and the lac operator repeats transgenic stock 4D5 and Dr. S. Heidmann for the generous gift of the H2AvDmRFP1 transgenic stock. We also wish to thank Dr. R. Tsien for making the mRFP1 construct available for these studies. This work was supported by NIH grant GM62916 (K.M.J.).
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by S. Pimpinelli
Electronic supplementary material
Rights and permissions
About this article
Cite this article
Deng, H., Zhang, W., Bao, X. et al. The JIL-1 kinase regulates the structure of Drosophila polytene chromosomes. Chromosoma 114, 173–182 (2005). https://doi.org/10.1007/s00412-005-0006-8
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00412-005-0006-8