First constitutive heterochromatin characterization and Karyotype of white stork Ciconia ciconia (Aves: Ciconiidae)

The karyotype and constitutive heterochromatin pattern of the white stork Ciconia ciconia samples obtained from Manzala lake, Dimiaat, Egypt was described. Somatic cells of Ciconia ciconia samples have diploid number 2n= 68 chromosomes. Out of 68 chromosomes, 11 pairs including sex chromosomes were macrochromosomes and the remaining pairs were microchromosomes. Of the 11 macrochromosome pairs, no.1, 2, 4 and 5 were submetacentric and pairs no. 6, 7 and 8 were described as metacentric. In addition, the autosome pair no.3 was subtelocentric, while autosome pair no.9 was acrocentric. Also, the sex chromosome Z represents the fourth one in size and it was classified as submetacentric while, W chromosome appeared as medium size and was acrocentric. Furthermore, C-banding pattern (constitutive heterochromatin) revealed variation in their sizes and occurrence between macrochromosomes. Pairs no. 7 and 8 of autosomes exhibited unusual distribution of heterochromatin, where they appeared as entirely heterochromatic. This may be related to the origin of sex chromosomes Z and W. However, there is no sufficient evidence illustrate the appearance of entirely heterochromatic autosomes. Therefore, there is no available cytogenetic literature that describes the C-banding and karyotype of Ciconia Ciconia, so the results herein are important and may assist in cytogenetic study and evolutionary pattern of Ciconiiformes.

Regulation of Heterochromatin Landscape in T-Cell Acute Lymphoblastic Leukemia

Ikzf1 encodes a zinc finger, DNA-binding protein that functions as a tumor suppressor in acute lymphoblastic leukemia (ALL). Deletion and/or loss of Ikaros function results in the development of high-risk leukemia. In the nucleus, Ikaros forms complexes with histone deacetylase complex, NuRD, and it participates in the formation of heterochromatin. The role of Ikaros-mediated formation of heterochromatin in tumor suppression in leukemia is unknown. We determined global genomic occupancy of Ikaros, global heterochromatin distribution, chromatin accessibility, DNA methylation landscape, and gene expression in primary human T-cell ALL (T-ALL), as well as in mouse T-ALL to analyze how Ikaros regulates heterochromatin landscape and gene expression in T-ALL. Results showed that Ikaros DNA occupancy is essential for the recruitment of histone deacetylase 1 (HDAC1), Polycomb repressive complex 2 (PRC2) and formation of facultative heterochromatin, as well as the formation of constitutive heterochromatin (characterized by H3K9me3 occupancy). T-ALL cells with deletion of both Ikzf1 alleles have severely impaired HDAC1 DNA occupancy and reduced H3K27me3. Re-introduction of Ikzf1 via retroviral transduction resulted in the restoration of H3K27me3 facultative heterochromatin, along with HDAC1 DNA occupancy. The H3K27me3 genomic distribution following Ikzf1 re-introduction showed high homology to the H3K27me3 genomic distribution in normal thymocytes. Analysis of H3K9me3 genomic distribution showed that Ikzf1 deletion results in dramatic redistribution of H3K9me3 global occupancy, with reduced H3K9me3 occupancy at pericentromeric loci. Reintroduction of Ikzf1 enhances H3K9me3 enrichment in pericentromeric loci, as well as at the promoters of genes that are involves in cellular proliferation. Analysis of DNA methylation distribution showed that Ikzf1 expression regulates global DNA methylation landscape. The presence of facultative heterochromatin, with enrichment of H3K27me3, inversely correlated with DNA methylation. Global analysis of chromatin accessibility revealed that Ikaros binding resulted in the loss of chromatin accessibility at over 3400 previously-accessible chromatin sites. Dynamic analyses demonstrate the long-lasting effects of Ikaros's DNA binding on heterochromatin distribution and chromatin accessibility. Analysis of gene expression in T-ALL with both Ikzf1 alleles and in Ikzf1-defficient cells (from Ikzf1-defficient T-ALL, and from Ikzf1-wild-type T-ALL following Ikzf1 deletion by CRISPR) showed that Ikaros-induced redistribution of facultative and constitutive heterochromatin results in the repression of several genes that are critical for cell cycle progression, PI3K-AKT-mTOR, and WNT signaling pathway. In conclusion, results suggest that Ikaros' tumor suppressor function in T-ALL occurs via global regulation of the heterochromatin, DNA methylation landscape, and chromatin accessibility, as well as via epigenetic regulation of transcription of the genes that play essential roles in signaling pathways that promote cellular proliferation. Disclosures No relevant conflicts of interest to declare.

Subtelomeric Chromatin in the Fission Yeast S. pombe

Telomeres play important roles in safeguarding the genome. The specialized repressive chromatin that assembles at telomeres and subtelomeric domains is key to this protective role. However, in many organisms, the repetitive nature of telomeric and subtelomeric sequences has hindered research efforts. The fission yeast S. pombe has provided an important model system for dissection of chromatin biology due to the relative ease of genetic manipulation and strong conservation of important regulatory proteins with higher eukaryotes. Telomeres and the telomere-binding shelterin complex are highly conserved with mammals, as is the assembly of constitutive heterochromatin at subtelomeres. In this review, we seek to summarize recent work detailing the assembly of distinct chromatin structures within subtelomeric domains in fission yeast. These include the heterochromatic SH subtelomeric domains, the telomere-associated sequences (TAS), and ST chromatin domains that assemble highly condensed chromatin clusters called knobs. Specifically, we review new insights into the sequence of subtelomeric domains, the distinct types of chromatin that assemble on these sequences and how histone H3 K36 modifications influence these chromatin structures. We address the interplay between the subdomains of chromatin structure and how subtelomeric chromatin is influenced by both the telomere-bound shelterin complexes and by euchromatic chromatin regulators internal to the subtelomeric domain. Finally, we demonstrate that telomere clustering, which is mediated via the condensed ST chromatin knob domains, does not depend on knob assembly within these domains but on Set2, which mediates H3K36 methylation.

SUV39 SET domains mediate crosstalk of heterochromatic histone marks

The SUV39 class of methyltransferase enzymes deposits histone H3 lysine 9 di- and trimethylation (H3K9me2/3), the hallmark of constitutive heterochromatin. How these enzymes are regulated to mark specific genomic regions as heterochromatic is poorly understood. Clr4 is the sole H3K9me2/3 methyltransferase in the fission yeast Schizosaccharomyces pombe, and recent evidence suggests that ubiquitination of lysine 14 on histone H3 (H3K14ub) plays a key role in H3K9 methylation. However, the molecular mechanism of this regulation and its role in heterochromatin formation remain to be determined. Our structure-function approach shows that the H3K14ub substrate binds specifically and tightly to the catalytic domain of Clr4, and thereby stimulates the enzyme by over 250-fold. Mutations that disrupt this mechanism lead to a loss of H3K9me2/3 and abolish heterochromatin silencing similar to clr4 deletion. Comparison with mammalian SET domain proteins suggests that the Clr4 SET domain harbors a conserved sensor for H3K14ub, which mediates licensing of heterochromatin formation.

Karyotype, C-band and NOR phenotype of Anatolian endemic fish Squalius anatolicus (Bogutskaya, 1997) (Teleostei, Leuciscidae)

The karyotype and distribution of constitutive heterochromatin and nucleolus organizer regions (NORs) of Anatolian leuciscine endemic to Lake Beysehir, Squalius anatolicus (Bogutskaya, 1997) were analyzed respectively using conventional Giemsa-staining, C-banding and Ag-impregnation. Diploid chromosome number was 2n = 50 and karyotype consisted of 7 pairs of metacentric, 13 pairs of submetacentric, 5 pairs of subtelo- to acrocentric chromosomes, NF value equaled 90. Heteromorphic elements indicating sex chromosomes were not detected. C-banding revealed clear pericentromeric constitutive heterochromatin blocks in several chromosomes. Ag-impregnation revealed the size heteromorphism of NORs that covered almost the entire short arms of the middle-sized submetacentric chromosome pair. The karyotype pattern and simple NOR phenotype of S. anatolicus are nearly identical with that found not only in Squalius species analyzed to date but also in many other representatives of the Eurasian leuciscine cyprinids, which indicates remarkable chromosome stasis in this leuciscid lineage.

Plant Polymerase IV sensitizes chromatin through histone modifications to preclude spread of silencing into protein-coding domains

Heterochromatin is the predominant architectural feature of genomes that ensures genomic stability across eukaryotes. It mostly functions in restricting expression of repeats, mobile elements such as transposons and other regions. The establishment, maintenance and spreading of heterochromatin requires several factors including chromatin modifiers. However, how exactly heterochromatin formation is avoided in protein-coding domains is poorly understood. Here we show that a plant specific paralogue of RNA polymerase (pol) II, named pol IV, is involved in avoidance of facultative heterochromatic marks in protein coding genes, in addition to silencing the repeats and transposons forming constitutive heterochromatin. In its absence, H3K27 trimethylation mark intrudes the protein coding genes, more profoundly in genes embedded with repeats. In a subset of genes that lack the compensatory silencing, spurious transcriptional activity results in small(s)RNA production leading to post-transcriptional gene silencing. We show that such effects are significantly pronounced in rice, a plant with larger genome with distributed heterochromatin when compared to Arabidopsis. Our results indicate the surprising division of labour among plant-specific polymerases, not just in establishing effective silencing via small RNAs and epigenetics, but also in influencing chromatin boundaries.

First Report on Nucleolar Organizer Regions (NORs) Polymorphism and Constitutive Heterochromatin of Moonlight Gourami, Trichopodus microlepis (Perciformes, Osphronemidae)

Nucleolar organizer regions (NORs) polymorphism, constitutive heterochromatin and chromosomal analysis of Moonlight gourami, Trichopodus microlepis in Thailand were firstly reported. Specimens were collected from the Chao Phraya and Mekong Basins, Thailand. The mitotic chromosomes were directly prepared from kidney tissues of ten males and ten females. Conventional staining, Ag-NOR banding and C- banding techniques were applied to stain the chromosomes. The results shown that the diploid chromosome number of T. microlepis was 2n=46 and the fundamental number (NF) was 46 in both males and females. The karyotype consisted of 46 telocentric chromosomes classifying as 14 large and 32 medium. No heteromorphic sex chromosome was observed in T. microlepis. The results also exhibited that the interstitial nucleolar organizer regions (NORs) were clearly observed at the long arm of the chromosome pair 7. This is the first report on NORs polymorphism in T. microlepis that a heteromorphic NOR type in one female had a single NOR-bearing chromosome of the chromosome pair 7, whereas 10 males and nine females had two NOR-bearing chromosomes of the chromosome pair 7 with a homomorphic NOR type. Constitutive heterochromatins located at all centromeres of all chromosome pairs. The karyotype formula of T. microlepis is 2n (46) = Lt14 + Mt32.

Identification of regions of constitutive heterochromatin and sites of ribosomal DNA (rDNA) in Rhogeessa hussoni (Genoways & Baker, 1996) (Chiroptera; Mammalia; Vespertilionidae)

There is scarce information about the geographical distribution, biological and cytogenetic data from the Rhogeessa hussoni. This study aims to characterize its chromosome composition through chromosome bandings to visualize regions of constitutive heterochromatin (CGB bands) and sites of ribosomal DNA (rDNA) in R. hussoni’s karyotype. A female specimen of R. hussoni was collected in the “Parque Municipal Mário Viana” Conservation Unit, Nova Xavantina, Mato Grosso, Central-West region of Brazil. The karyotype constitution was 2n=52 and NF=54. The CBG bands evidenced a sex X chromosome nearly completely constituted by heterochromatin. The Rhogeessa hussoni has two sites of rDNA located in a single pair (pair 25) of autosomal chromosomes. We carried out the first cytogenetic characterization of R. hussoni, supplementing knowledge about regions of heterochromatin and ribosomal DNA in this species, thus contributing to future elucidations about the genetic diversification in the genus Rogheessa.