Your search keyword '"HUMAN chromosomes"' showing total 6,733 results

1. X centromeric drive may explain the prevalence of polycystic ovary syndrome and other conditions: Genomic structure of the human X chromosome pericentromeric region is consistent with meiotic drive associated with PCOS and other conditions.

Author

Moore, Tom

Subjects

*HUMAN chromosomes, *MEIOTIC drive, *POLYCYSTIC ovary syndrome, *SEX differentiation (Embryology), *CELL separation, *X chromosome

Abstract

X chromosome centromeric drive may explain the prevalence of polycystic ovary syndrome and contribute to oocyte aneuploidy, menopause, and other conditions. The mammalian X chromosome may be vulnerable to meiotic drive because of X inactivation in the female germline. The human X pericentromeric region contains genes potentially involved in meiotic mechanisms, including multiple SPIN1 and ZXDC paralogs. This is consistent with a multigenic drive system comprising differential modification of the active and inactive X chromosome centromeres in female primordial germ cells and preferential segregation of the previously inactivated X chromosome centromere to the polar body at meiosis I. The drive mechanism may explain differences in X chromosome regulation in the female germlines of the human and mouse and, based on the functions encoded by the genes in the region, the transmission of X pericentromeric genetic or epigenetic variants to progeny could contribute to preeclampsia, autism, and differences in sexual differentiation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Cancer-associated SNPs in bacteria: lessons from Helicobacter pylori.

Author

Linz, Bodo, Sticht, Heinrich, Tegtmeyer, Nicole, and Backert, Steffen

Subjects

*GENETIC variation, *GENOME-wide association studies, *DOUBLE-strand DNA breaks, *HUMAN chromosomes, *SINGLE nucleotide polymorphisms

Abstract

Genome-wide association studies (GWAS) pinpointed gastric cancer (GC)-associated single-nucleotide polymorphisms (SNPs) and other gene variants not only in genes of the human host but also in genes of the bacterial pathogen Helicobacter pylori. Functional studies unraveled the underlying mechanisms by which SNPs in H. pylori virulence factors CagA and serine protease HtrA promote GC development. The 171L/S SNP in HtrA originated in Asia 60 000 to 45 000 years ago after the human migration out-of-Africa and spread to all continents except Africa; the EPIYT mutation in CagA arose before the out-of-Africa migration. Several single-nucleotide polymorphisms (SNPs) in human chromosomes are known to predispose to cancer. However, cancer-associated SNPs in bacterial pathogens were unknown until discovered in the stomach pathogen Helicobacter pylori. Those include an alanine-threonine polymorphism in the EPIYA-B phosphorylation motif of the injected effector protein CagA that affects cancer risk by modifying inflammatory responses and loss of host cell polarity. A serine-to-leucine change in serine protease HtrA is associated with boosted proteolytic cleavage of epithelial junction proteins and introduction of DNA double-strand breaks (DSBs) in host chromosomes, which co-operatively elicit malignant alterations. In addition, H. pylori genome-wide association studies (GWAS) identified several other SNPs potentially associated with increased gastric cancer (GC) risk. Here we discuss the clinical importance, evolutionary origin, and functional advantage of the H. pylori SNPs. These exciting new data highlight cancer-associated SNPs in bacteria, which should be explored in more detail in future studies. [ABSTRACT FROM AUTHOR]

Published

2024

3. Naturally occurring horse model of miscarriage reveals temporal relationship between chromosomal aberration type and point of lethality.

Author

Lawson, Jessica M., Salem, Shebl E., Miller, Donald, Kahler, Anne, van den Boer, Wilhelmina J., Shilton, Charlotte A., Sever, Tia, Mouncey, Rebecca R., Ward, Jenna, Hampshire, Daniel J., Foote, Alastair K., Bryan, Jill S., Juras, Rytis, Pynn, Oliver D., Davis, Brian W., Bellone, Rebecca R., Raudsepp, Terje, and de Mestre, Amanda M.

Subjects

*CHROMOSOME abnormalities, *HUMAN chromosomes, *MATERNAL age, *MISCARRIAGE, *PLOIDY

Abstract

Chromosomal abnormalities are a common cause of human miscarriage but rarely reported in any other species. As a result, there are currently inadequate animal models available to study this condition. Horses present one potential model since mares receive intense gynecological care. This allowed us to investigate the prevalence of chromosomal copy number aberrations in 256 products of conception (POC) in a naturally occurring model of pregnancy loss (PL). Triploidy (three haploid sets of chromosomes) was the most common aberration, found in 42% of POCs following PL over the embryonic period. Over the same period, trisomies and monosomies were identified in 11.6% of POCs and subchromosomal aberrations in 4.2%. Whole and subchromosomal aberrations involved 17 autosomes, with chromosomes 3, 4, and 20 having the highest number of aberrations. Triploid fetuses had clear gross developmental anomalies of the brain. Collectively, data demonstrate that alterations in chromosome number contribute to PL similarly in women and mares, with triploidy the dominant ploidy type over the key period of organogenesis. These findings, along with highly conserved synteny between human and horse chromosomes, similar gestation lengths, and the shared single greatest risk for PL being advancing maternal age, provide strong evidence for the first animal model to truly recapitulate many key features of human miscarriage arising due to chromosomal aberrations, with shared benefits for humans and equids. [ABSTRACT FROM AUTHOR]

Published

2024

4. Exploring the nexus between MYH9 and tumors: novel insights and new therapeutic opportunities.

Author

Zixuan Gou, Difei Zhang, Hongliang Cao, Yao Li, Yunkuo Li, Zijian Zhao, Ye Wang, Yishu Wang, and Honglan Zhou

Subjects

HUMAN chromosomes, CYTOSKELETON, TUMORS, THERAPEUTICS, MYOSIN

Abstract

The myosin heavy chain 9 (MYH9) gene, located on human chromosome 22, encodes non-muscle myosin heavy chain IIA (NM IIA). This protein is essential to various cellular events, such as generating intracellular chemomechanical force and facilitating the movement of the actin cytoskeleton. Mutations associated with thrombocytopenia in autosomal dominant diseases first highlighted the significance of the MYH9 gene. In recent years, numerous studies have demonstrated the pivotal roles of MYH9 in various cancers. However, its effects on cancer are intricate and not fully comprehended. Furthermore, the elevated expression of MYH9 in certain malignancies suggests its potential as a target for tumor therapy. Nonetheless, there is a paucity of literature summarizing MYH9's role in tumors and the therapeutic strategies centered on it, necessitating a systematic analysis. This paper comprehensively reviews and analyzes the pertinent literature in this domain, elucidating the fundamental structural characteristics, biological functions, and the nexus between MYH9 and tumors. The mechanisms through which MYH9 contributes to tumor development and its multifaceted roles in the tumorigenic process are also explored. Additionally, we discuss the relationship between MYH9-related diseases (MYH9-RD) and tumors and also summarize tumor therapeutic approaches targeting MYH9. The potential clinical applications of studying the MYH9 gene include improving early diagnosis, clinical staging, and prognosis of tumors. This paper is anticipated to provide novel insights for tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2024

5. A novel autism-associated KCNB1 mutation dramatically slows Kv2.1 potassium channel activation, deactivation and inactivation.

Author

Manville, Rían W., Block, Samantha D., Illeck, Claire L., Kottmeier, Jessica, Sidlow, Richard, and Abbott, Geoffrey W.

Subjects

AUTISM spectrum disorders, GENETIC variation, HUMAN chromosomes, DEVELOPMENTAL delay, GENETIC testing, POTASSIUM channels

Abstract

KCNB1, on human chromosome 20q13.3, encodes the alpha subunit of the Kv2.1 voltage gated potassium channel. Kv2.1 is ubiquitously expressed throughout the brain and is critical in controlling neuronal excitability, including in the hippocampus and pyramidal neurons. Human KCNB1 mutations are known to cause global development delay or plateauing, epilepsy, and behavioral disorders. Here, we report a sibling pair with developmental delay, absence seizures, autism spectrum disorder, hypotonia, and dysmorphic features. Whole exome sequencing revealed a heterozygous variant of uncertain significance (c. 342 C>A), p. (S114R) in KCNB1, encoding a serine to arginine substitution (S114R) in the N-terminal cytoplasmic region of Kv2.1. The siblings' father demonstrated autistic features and was determined to be an obligate KCNB1 c. 342 C>A carrier based on familial genetic testing results. Functional investigation of Kv2.1- S114R using cellular electrophysiology revealed slowing of channel activation, deactivation, and inactivation, resulting in increased net current after longer membrane depolarizations. To our knowledge, this is the first study of its kind that compares the presentation of siblings each with a KCNB1 disorder. Our study demonstrates that Kv2.1-S114R has profound cellular and phenotypic consequences. Understanding the mechanisms underlying KCNB1-linked disorders aids clinicians in diagnosis and treatment and provides potential therapeutic avenues to pursue. [ABSTRACT FROM AUTHOR]

Published

2024

6. GATA3 mediates the effect of miR-21/PTEN axis on the proliferation and invasion of endometrial cancer cells.

Author

WANG Fahui, DENG Qingchun, LIN Jiajia, and CHEN Chunfei

Subjects

*ENDOMETRIAL cancer, *CANCER cells, *GENE expression, *GATA proteins, *HUMAN chromosomes

Abstract

Objective To analyze the effects of GATA binding protein 3 (GATA3) mediated mini RNA-21 (miR-21)/phosphatase and tensin homologue (PTEN) axis missing from human chromosome Chromosome 10 on the proliferation and invasion of endometrial cancer cells. Methods HEC-1-A cells were transfected and divided into control group, GATA3 empty plasmid group, GATA3 overexpression plasmid group, GATA3 siRNA negative control group, and GATA3 siRNA group. Detect the expression levels of GATA3, miR-21, PTEN, proliferation, apoptosis rate, migration, and invasion in each group of cells. Results Compared with the hEEC group, the expression levels of GATA3 and miR-21 in cells of the HEC-1-A group, HEC-1-B group, and Ishikawa group increased, while the expression levels of PTEN decreased (P < 0.05). Compared with the GATA3 empty plasmid group, the GATA3 overexpression plasmid group showed an increase in GATA3, miR-21 mRNA expression, proliferation rate, migration distance, number of invading cells, and Vimentin levels, while the PTEN mRNA expression, apoptosis rate, Caspase-9, Bax, and E-cadherin levels decreased (P < 0.05); Compared with the GATA3 siRNA negative control group, the GATA3, miR-21 mRNA expression, proliferation rate, migration distance, number of invading cells, and Vimentin level decreased, while the PTEN mRNA expression, apoptosis rate, Caspase-9, Bax, and E-cadherin levels increased (P < 0.05). Conclusion Downregulation of GATA3 expression can regulate the miR-21/PTEN axis, slow down the proliferation of HEC-1-A cells, and promote apoptosis of HEC-1-A cells. [ABSTRACT FROM AUTHOR]

Published

2024

7. Analysis of microisolated frontal cortex excitatory layer III and V pyramidal neurons reveals a neurodegenerative phenotype in individuals with Down syndrome.

Author

Alldred, Melissa J., Pidikiti, Harshitha, Ibrahim, Kyrillos W., Lee, Sang Han, Heguy, Adriana, Hoffman, Gabriel E., Roussos, Panos, Wisniewski, Thomas, Wegiel, Jerzy, Stutzmann, Grace E., Mufson, Elliott J., and Ginsberg, Stephen D.

Subjects

*AMYLOID beta-protein precursor, *GENE expression, *FRONTAL lobe, *ALZHEIMER'S disease, *HUMAN chromosomes

Abstract

We elucidated the molecular fingerprint of vulnerable excitatory neurons within select cortical lamina of individuals with Down syndrome (DS) for mechanistic understanding and therapeutic potential that also informs Alzheimer's disease (AD) pathophysiology. Frontal cortex (BA9) layer III (L3) and layer V (L5) pyramidal neurons were microisolated from postmortem human DS and age- and sex-matched controls (CTR) to interrogate differentially expressed genes (DEGs) and key biological pathways relevant to neurodegenerative programs. We identified > 2300 DEGs exhibiting convergent dysregulation of gene expression in both L3 and L5 pyramidal neurons in individuals with DS versus CTR subjects. DEGs included over 100 triplicated human chromosome 21 genes in L3 and L5 neurons, demonstrating a trisomic neuronal karyotype in both laminae. In addition, thousands of other DEGs were identified, indicating gene dysregulation is not limited to trisomic genes in the aged DS brain, which we postulate is relevant to AD pathobiology. Convergent L3 and L5 DEGs highlighted pertinent biological pathways and identified key pathway-associated targets likely underlying corticocortical neurodegeneration and related cognitive decline in individuals with DS. Select key DEGs were interrogated as potential hub genes driving dysregulation, namely the triplicated DEGs amyloid precursor protein (APP) and superoxide dismutase 1 (SOD1), along with key signaling DEGs including mitogen activated protein kinase 1 and 3 (MAPK1, MAPK3) and calcium calmodulin dependent protein kinase II alpha (CAMK2A), among others. Hub DEGs determined from multiple pathway analyses identified potential therapeutic candidates for amelioration of cortical neuron dysfunction and cognitive decline in DS with translational relevance to AD. [ABSTRACT FROM AUTHOR]

Published

2024

8. A novel memetic algorithm for solving the generalized traveling salesman problem.

Author

Cosma, Ovidiu, Pop, Petrică C, and Cosma, Laura

Subjects

TRAVELING salesman problem, ALGORITHMS, HUMAN chromosomes

Abstract

This paper investigates the Generalized Traveling Salesman Problem (GTSP), which is an extension of the well-known Traveling Salesman Problem (TSP), and it searches for an optimal tour in a clustered graph, such that every cluster is visited exactly once. In this paper, we describe a novel Memetic Algorithm (MA) for solving efficiently the GTSP. Our proposed MA has at its core a genetic algorithm (GA), completed by a Chromosome Enhancement Procedure (CEP), which is based on a TSP solver and the Shortest Path (SP) algorithm and for improving the convergence characteristics of the GA, a Local Search (LS) operation is applied for the best chromosomes in each generation. We tested our algorithm on a set of well-known instances from the literature and the achieved results prove that our novel memetic algorithm is highly competitive against the existing solution approaches from the specialized literature. [ABSTRACT FROM AUTHOR]

Published

2024

9. Detection of HBV DNA integration in plasma cell-free DNA of different HBV diseases utilizing DNA capture strategy.

Author

Zerui Yang, Jingyan Zeng, Yueyue Chen, Mengchun Wang, Hongchun Luo, Ai-Long Huang, Haijun Deng, and Yuan Hu

Subjects

CELL-free DNA, HEPATITIS B virus, CHRONIC hepatitis B, DECEPTION, HUMAN chromosomes, DNA

Abstract

The landscape of hepatitis B virus (HBV) integration in the plasma cell-free DNA (cfDNA) of HBV-infected patients with different stages of liver diseases [chronic hepatitis B (CHB), liver cirrhosis (LC), and hepatocellular carcinoma (HCC)] remains unclear. In this study, we developed an improved strategy for detecting HBV DNA integration in plasma cfDNA, based on DNA probe capture and next-generation sequencing. Using this optimized strategy, we successfully detected HBV integration events in chimeric artificial DNA samples and HBV-infected HepG2-NTCP cells at day one post infection, with high sensitivity and accuracy. The characteristics of HBV integration events in the HBV-infected HepG2-NTCP cells and plasma cfDNA from HBV-infected individuals (CHB, LC, and HCC) were further investigated. A total of 112 and 333 integration breakpoints were detected in the HepG2-NTCP cells and 22 out of 25 (88%) clinical HBV-infected samples, respectively. In vivo analysis showed that the normalized number of support unique sequences (nnsus) in HCC was significantly higher than in CHB or LC patients (P values < 0.05). All integration breakpoints are randomly distributed on human chromosomes and are enriched in the HBV genome around nt 1800. The majority of integration breakpoints (61.86%) are located in the gene-coding region. Both non-homologous end-joining (NHEJ) and microhomology-mediated end-joining (MMEJ) interactions occurred during HBV integration across the three different stages of liver diseases. Our study provides evidence that HBV DNA integration can be detected in the plasma cfDNA of HBV-infected patients, including those with CHB, LC, or HCC, using this optimized strategy. [ABSTRACT FROM AUTHOR]

Published

2024

10. Dissecting the contribution of human chromosome 21 syntenic regions to recognition memory processes in adult and aged mouse models of Down syndrome.

Author

Canonica, Tara, Kidd, Emma J., Gibbins, Dorota, Lana-Elola, Eva, Fisher, Elizabeth M. C., Tybulewicz, Victor L. J., and Good, Mark

Subjects

RECOGNITION (Psychology), LABORATORY mice, DOWN syndrome, COGNITIVE ability, HUMAN chromosomes, ANIMAL cognition, FRAGILE X syndrome, PROTEIN receptors

Abstract

Background: Trisomy of human chromosome 21 (Hsa21) results in a constellation of features known as Down syndrome (DS), the most common genetic form of intellectual disability. Hsa21 is orthologous to three regions in the mouse genome on mouse chromosome 16 (Mmu16), Mmu17 and Mmu10. We investigated genotype-phenotype relationships by assessing the contribution of these three regions to memory function and age-dependent cognitive decline, using three mouse models of DS, Dp1Tyb, Dp(17)3Yey, Dp(10)2Yey, that carry an extra copy of the Hsa21-orthologues on Mmu16, Mmu17 and Mmu10, respectively. Hypothesis: Prior research on cognitive function in DS mouse models has largely focused on models with an extra copy of the Mmu16 region and relatively little is known about the effects of increased copy number on Mmu17 and Mmu10 on cognition and how this interacts with the effects of aging. As aging is is a critical contributor to cognitive and psychiatric changes in DS, we hypothesised that ageing would differentially impact memory function in Dp1Tyb, Dp(17)3Yey, and Dp(10)2Yey, models of DS. Methods: Young (12-13 months and old (18-20 months mice Dp1Tyb, Dp(17)3Yey and Dp(10)2Yey mice were tested on a battery of object recognition memory test that assessed object novelty detection, novel location detection and associative object-in place memory. Following behavioral testing, hippocampal and frontal cortical tissue was analysed for expression of glutamatergic receptor proteins using standard immunoblot techniques. Results: Young (12-13 months and old (18-20 months mice Dp1Tyb, Dp(17)3Yey and Dp(10)2Yey mice were tested on a battery of object recognition memory test that assessed object novelty detection, novel location detection and associative object-in place memory. Following behavioral testing, hippocampal and frontal cortical tissue was analysed for expression of glutamatergic receptor proteins using standard immunoblot techniques. Conclusion: Our results show that distinct Hsa21-orthologous regions contribute differentially to cognitive dysfunction in DS mouse models and that aging interacts with triplication of Hsa21-orthologous genes on Mmu10. [ABSTRACT FROM AUTHOR]

Published

2024

11. Novel Cascade Alpha Satellite HORs in Orangutan Chromosome 13 Assembly: Discovery of the 59mer HOR—The largest Unit in Primates—And the Missing Triplet 45/27/18 HOR in Human T2T-CHM13v2.0 Assembly.

Author

Glunčić, Matko, Vlahović, Ines, Rosandić, Marija, and Paar, Vladimir

Subjects

*ORANGUTANS, *PRIMATES, *CHROMOSOME analysis, *WHOLE genome sequencing, *HUMAN chromosomes, *CENTROMERE, *CHROMOSOMES

Abstract

From the recent genome assembly NHGRI_mPonAbe1-v2.0_NCBI (GCF_028885655.2) of orangutan chromosome 13, we computed the precise alpha satellite higher-order repeat (HOR) structure using the novel high-precision GRM2023 algorithm with Global Repeat Map (GRM) and Monomer Distance (MD) diagrams. This study rigorously identified alpha satellite HORs in the centromere of orangutan chromosome 13, discovering a novel 59mer HOR—the longest HOR unit identified in any primate to date. Additionally, it revealed the first intertwined sequence of three HORs, 18mer/27mer/45mer HORs, with a common aligned "backbone" across all HOR copies. The major 7mer HOR exhibits a Willard's-type canonical copy, although some segments of the array display significant irregularities. In contrast, the 14mer HOR forms a regular Willard's-type HOR array. Surprisingly, the GRM2023 high-precision analysis of chromosome 13 of human genome assembly T2T-CHM13v2.0 reveals the presence of only a 7mer HOR, despite both the orangutan and human genome assemblies being derived from whole genome shotgun sequences. [ABSTRACT FROM AUTHOR]

Published

2024

12. Truncated variants of MAGEL2 are involved in the etiologies of the Schaaf-Yang and Prader-Willi syndromes.

Author

Heimdörfer, David, Vorleuter, Alexander, Eschlböck, Alexander, Spathopoulou, Angeliki, Suarez-Cubero, Marta, Farhan, Hesso, Reiterer, Veronika, Spanjaard, Melanie, Schaaf, Christian P., Huber, Lukas A., Kremser, Leopold, Sarg, Bettina, Edenhofer, Frank, Geley, Stephan, de Araujo, Mariana E.G., and Huettenhofer, Alexander

Subjects

*PRADER-Willi syndrome, *SPINAL muscular atrophy, *AUTISM spectrum disorders, *FRAMESHIFT mutation, *HUMAN chromosomes, *RNA metabolism

Abstract

The neurodevelopmental disorders Prader-Willi syndrome (PWS) and Schaaf-Yang syndrome (SYS) both arise from genomic alterations within human chromosome 15q11–q13. A deletion of the SNORD116 cluster, encoding small nucleolar RNAs, or frameshift mutations within MAGEL2 result in closely related phenotypes in individuals with PWS or SYS, respectively. By investigation of their subcellular localization, we observed that in contrast to a predominant cytoplasmic localization of wild-type (WT) MAGEL2, a truncated MAGEL2 mutant was evenly distributed between the cytoplasm and the nucleus. To elucidate regulatory pathways that may underlie both diseases, we identified protein interaction partners for WT or mutant MAGEL2, in particular the survival motor neuron protein (SMN), involved in spinal muscular atrophy, and the fragile-X-messenger ribonucleoprotein (FMRP), involved in autism spectrum disorders. The interactome of the non-coding RNA SNORD116 was also investigated by RNA-CoIP. We show that WT and truncated MAGEL2 were both involved in RNA metabolism, while regulation of transcription was mainly observed for WT MAGEL2. Hence, we investigated the influence of MAGEL2 mutations on the expression of genes from the PWS locus, including the SNORD116 cluster. Thereby, we provide evidence for MAGEL2 mutants decreasing the expression of SNORD116 , SNORD115 , and SNORD109A , as well as protein-coding genes MKRN3 and SNRPN , thus bridging the gap between PWS and SYS. [Display omitted] Mutations within MAGEL2 from chromosomal region 15q11–q13 cause Schaaf-Yang syndrome, which is phenotypically related to Prader-Willi syndrome, caused by deletion of the SNORD116 cluster within the same locus. We correlate mutations within MAGEL2 to spinal muscular atrophy and autism and also demonstrate its influence on the abundance of SNORD116. [ABSTRACT FROM AUTHOR]

Published

2024

13. Non-homologous end joining shapes the genomic rearrangement landscape of chromothripsis from mitotic errors.

Author

Hu, Qing, Espejo Valle-Inclán, Jose, Dahiya, Rashmi, Guyer, Alison, Mazzagatti, Alice, Maurais, Elizabeth G., Engel, Justin L., Lu, Huiming, Davis, Anthony J., Cortés-Ciriano, Isidro, and Ly, Peter

Subjects

DNA repair, DOUBLE-strand DNA breaks, HUMAN chromosomes, CELL cycle, CHROMOSOMAL rearrangement, FRAGMENTED landscapes, CHROMOSOMES

Abstract

Mitotic errors generate micronuclei entrapping mis-segregated chromosomes, which are susceptible to catastrophic fragmentation through chromothripsis. The reassembly of fragmented chromosomes by error-prone DNA double-strand break (DSB) repair generates diverse genomic rearrangements associated with human diseases. How specific repair pathways recognize and process these lesions remains poorly understood. Here we use CRISPR/Cas9 to systematically inactivate distinct DSB repair pathways and interrogate the rearrangement landscape of fragmented chromosomes. Deletion of canonical non-homologous end joining (NHEJ) components substantially reduces complex rearrangements and shifts the rearrangement landscape toward simple alterations without the characteristic patterns of chromothripsis. Following reincorporation into the nucleus, fragmented chromosomes localize within sub-nuclear micronuclei bodies (MN bodies) and undergo ligation by NHEJ within a single cell cycle. In the absence of NHEJ, chromosome fragments are rarely engaged by alternative end-joining or recombination-based mechanisms, resulting in delayed repair kinetics, persistent 53BP1-labeled MN bodies, and cell cycle arrest. Thus, we provide evidence supporting NHEJ as the exclusive DSB repair pathway generating complex rearrangements from mitotic errors. Mitotic errors promote chromosome fragmentation and rearrangements through chromothripsis. Here, the authors identify NHEJ as the primary DSB repair pathway underlying chromothripsis and investigate the kinetics of fragment reassembly across the cell cycle. [ABSTRACT FROM AUTHOR]

Published

2024

14. Variegated overexpression of chromosome 21 genes reveals molecular and immune subtypes of Down syndrome.

Author

Donovan, Micah G., Eduthan, Neetha P., Smith, Keith P., Britton, Eleanor C., Lyford, Hannah R., Araya, Paula, Granrath, Ross E., Waugh, Katherine A., Enriquez Estrada, Belinda, Rachubinski, Angela L., Sullivan, Kelly D., Galbraith, Matthew D., and Espinosa, Joaquin M.

Subjects

DOWN syndrome, CHROMOSOMES, HUMAN chromosomes, GENETIC overexpression, GENES, PROTEOMICS

Abstract

Individuals with Down syndrome, the genetic condition caused by trisomy 21, exhibit strong inter-individual variability in terms of developmental phenotypes and diagnosis of co-occurring conditions. The mechanisms underlying this variable developmental and clinical presentation await elucidation. We report an investigation of human chromosome 21 gene overexpression in hundreds of research participants with Down syndrome, which led to the identification of two major subsets of co-expressed genes. Using clustering analyses, we identified three main molecular subtypes of trisomy 21, based on differential overexpression patterns of chromosome 21 genes. We subsequently performed multiomics comparative analyses among subtypes using whole blood transcriptomes, plasma proteomes and metabolomes, and immune cell profiles. These efforts revealed strong heterogeneity in dysregulation of key pathophysiological processes across the three subtypes, underscored by differential multiomics signatures related to inflammation, immunity, cell growth and proliferation, and metabolism. We also observed distinct patterns of immune cell changes across subtypes. These findings provide insights into the molecular heterogeneity of trisomy 21 and lay the foundation for the development of personalized medicine approaches for the clinical management of Down syndrome. Here, the authors reveal variability in chromosome 21 gene overexpression among individuals with Down syndrome, identifying three distinct molecular subtypes. Each subtype exhibits unique biosignatures and immune profiles, offering new insights into the complex biology of Down syndrome. [ABSTRACT FROM AUTHOR]

Published

2024

15. The Chromatin Organization Close to SNP rs12913832, Involved in Eye Color Variation, Is Evolutionary Conserved in Vertebrates.

Author

Brancato, Desiree, Bruno, Francesca, Coniglio, Elvira, Sturiale, Valentina, Saccone, Salvatore, and Federico, Concetta

Subjects

*COLOR variation (Biology), *EYE color, *GENETIC engineering, *CHROMATIN, *CELL nuclei, *SINGLE nucleotide polymorphisms, *HUMAN chromosomes, *RNA splicing

Abstract

The most significant genetic influence on eye color pigmentation is attributed to the intronic SNP rs12913832 in the HERC2 gene, which interacts with the promoter region of the contiguous OCA2 gene. This interaction, through the formation of a chromatin loop, modulates the transcriptional activity of OCA2, directly affecting eye color pigmentation. Recent advancements in technology have elucidated the precise spatial organization of the genome within the cell nucleus, with chromatin architecture playing a pivotal role in regulating various genome functions. In this study, we investigated the organization of the chromatin close to the HERC2/OCA2 locus in human lymphocyte nuclei using fluorescence in situ hybridization (FISH) and high-throughput chromosome conformation capture (Hi-C) data. The 3 Mb of genomic DNA that belonged to the chromosomal region 15q12-q13.1 revealed the presence of three contiguous chromatin loops, which exhibited a different level of compaction depending on the presence of the A or G allele in the SNP rs12913832. Moreover, the analysis of the genomic organization of the genes has demonstrated that this chromosomal region is evolutionarily highly conserved, as evidenced by the analysis of syntenic regions in species from other Vertebrate classes. Thus, the role of rs12913832 variant is relevant not only in determining the transcriptional activation of the OCA2 gene but also in the chromatin compaction of a larger region, underscoring the critical role of chromatin organization in the proper regulation of the involved genes. It is crucial to consider the broader implications of this finding, especially regarding the potential regulatory role of similar polymorphisms located within intronic regions, which do not influence the same gene by modulating the splicing process, but they regulate the expression of adjacent genes. Therefore, caution should be exercised when utilizing whole-exome sequencing for diagnostic purposes, as intron sequences may provide valuable gene regulation information on the region where they reside. Thus, future research efforts should also be directed towards gaining a deeper understanding of the precise mechanisms underlying the role and mode of action of intronic SNPs in chromatin loop organization and transcriptional regulation. [ABSTRACT FROM AUTHOR]

Published

2024

16. LINC01503 in cancer: from molecular mechanisms to therapeutic implications.

Author

Shuai, You, Qian, Haili, and Yuan, Peng

Subjects

*LIVER cancer, *LINCRNA, *PANCREATIC cancer, *CLINICAL medicine, *HUMAN chromosomes

Abstract

Long non-coding RNAs (lncRNAs) are fundamental agents that govern tumor growth and metastasis across a spectrum of cancer types. Linc01503 is a novel lncRNA situated on human chromosome 19, and it is intricately linked with the pathogenesis of multiple human cancers, underscoring its substantial role and significance in cancer development. It has been recognized as a pivotal contributor to inducing malignant behaviors in lung cancer, gastric cancer, colorectal cancer, cholangiocarcinoma, liver cancer and pancreatic cancer, among others. The dysregulation of linc01503 has been shown to strongly associate with advanced clinicopathological factors and foretell an unfavorable prognosis, indicating its prospective clinical significance as a valuable biomarker and therapeutic target for individuals with cancer. The primary objective of the current work is to present the intricate molecular pathways governed by linc01503 and its profound clinical relevance in the context of carcinogenesis. We also focus on the future prospects of linc01503-based clinical application. This will help us to better understand the regulatory mechanism of carcinogenesis and provide new ideas for precision molecular medicine. [ABSTRACT FROM AUTHOR]

Published

2024

17. Eight quick tips for including chromosome X in genome-wide association studies.

Author

Bellavance, Justin, Wang, Linda, and Gagliano Taliun, Sarah A.

Subjects

*X chromosome, *GENOME-wide association studies, *CHROMOSOME analysis, *SEX chromosomes, *Y chromosome, *HUMAN chromosomes

Abstract

This document provides tips and guidance for researchers conducting association analyses on chromosome X. It emphasizes the importance of including chromosome X in genetic studies and highlights the need for diverse statistical models to account for its unique characteristics, such as X inactivation and the hemizygous state in individuals with an XY karyotype. The document suggests retaining chromosome X variants in quality control pipelines, imputing chromosome X variants, and using genetic association software that supports X chromosome testing. It also encourages researchers to share their results and code with the scientific community to facilitate replication and further analysis. The document acknowledges the challenges associated with analyzing chromosome X but highlights the potential for future scientific discoveries in this field. [Extracted from the article]

Published

2024

18. Multifractal Properties of Human Chromosome Sequences.

Author

Correia, J. P., Silva, R., Anselmo, D. H. A. L., Vasconcelos, M. S., and da Silva, L. R.

Subjects

*NUCLEOTIDE sequence, *FRACTALS, *BASE pairs, *DNA sequencing, *HUMAN DNA, *HUMAN chromosomes

Abstract

The intricacy and fractal properties of human DNA sequences are examined in this work. The core of this study is to discern whether complete DNA sequences present distinct complexity and fractal attributes compared with sequences containing exclusively exon regions. In this regard, the entire base pair sequences of DNA are extracted from the NCBI (National Center for Biotechnology Information) database. In order to create a time series representation for the base pair sequence { G , C , T , A } , we use the Chaos Game Representation (CGR) approach and a mapping rule f, which enables us to apply the metric known as the Complexity–Entropy Plane (CEP) and multifractal detrended fluctuation analysis (MF-DFA). To carry out our investigation, we divided human DNA into two groups: the first is composed of the 24 chromosomes, which comprises all the base pairs that form the DNA sequence, and another group that also includes the 24 chromosomes, but the DNA sequences rely only on the exons' presence. The results show that both sets provide fractal patterns in their structure, as obtained by the CGR approach. Complete DNA sequences show a sharper visual fractal pattern than sequences composed only of exons. Moreover, the sequences occupy distinct areas of the complexity–entropy plane, and the complete DNA sequences lead to greater statistical complexity and lower entropy than the exon sequences. Also, we observed that different fractal parameters between chromosomes indicate diversity in genomic sequences. All these results occur in different scales for all chromosomes. [ABSTRACT FROM AUTHOR]

Published

2024

19. The landscape of allelic expression and DNA methylation at the bovine SGCE/PEG10 locus.

Author

Zhang, Yinjiao, Zhang, Cui, Chen, Weina, Huo, Haonan, Li, Shujing, Yu, Wenli, Jin, Lanjie, Wang, Kun, and Li, Shijie

Subjects

*GENOMIC imprinting, *DNA methylation, *HUMAN chromosomes, *SINGLE nucleotide polymorphisms, *LOCUS (Genetics)

Abstract

Genomic imprinting is an epigenetic regulation in mammals in which a small subset of genes is monoallelically expressed dependent on their parental origin. A large imprinted domain, SGCE/PEG10 locus, is located on human chromosome 7q21s and mouse proximal chromosome 6. However, genomic imprinting of bovine SGCE/PEG10 cluster has not been systematically studied. In this study, we investigated allele expression of 14 genes of the SGCE/PEG10 locus in bovine somatic tissues and term placenta using a single nucleotide polymorphism (SNP)‐based sequencing method. In addition to SGCE and PEG10, two conserved paternally expressed genes in human and mice, five other genes (TFPI2, GNG11, ASB4, PON1, and PON3) were paternally expressed. Three genes, BET1, COL1A2, and CASD1, exhibited tissue‐specific monoallelic expression. CALCR showed monoallelic expression in tissues but biallelic expression in the placenta. Three genes, GNGT1, PPP1R9A, and PON2, showed biallelic expression in cattle. Five differentially methylated regions (DMRs) were found to be associated with the allelic expression of TFPI2, COL1A2, SGCE/PEG10, PON3, and ASB4 genes, respectively. The SGCE/PEG10 DMR is a maternally hypermethylated germline DMR, but TFPI2, COL1A2, PON3, and ASB4 DMRs are secondary DMRs. In summary, we identified five novel bovine imprinted genes (GNG11, BET1, COL1A2, CASD1, and PON1) and four secondary DMRs at the SGCE/PEG10 locus. [ABSTRACT FROM AUTHOR]

Published

2024

20. Robertsonian Translocation between Human Chromosomes 21 and 22, Inherited across Three Generations, without Any Phenotypic Effect.

Author

Federico, Concetta, Brancato, Desiree, Bruno, Francesca, Galvano, Daiana, Caruso, Mariella, and Saccone, Salvatore

Subjects

*HUMAN chromosomes, *KARYOTYPES, *COMPARATIVE genomic hybridization, *PHENOTYPES, *CHROMOSOMAL translocation, *CHROMOSOMAL rearrangement

Abstract

Chromosomal translocations can result in phenotypic effects of varying severity, depending on the position of the breakpoints and the rearrangement of genes within the interphase nucleus of the translocated chromosome regions. Balanced translocations are often asymptomatic phenotypically and are typically detected due to a decrease in fertility resulting from issues during meiosis. Robertsonian translocations are among the most common chromosomal abnormalities, often asymptomatic, and can persist in the population as a normal polymorphism. We serendipitously discovered a Robertsonian translocation between chromosome 21 and chromosome 22, which is inherited across three generations without any phenotypic effect, notably only in females. In situ hybridization with alpha-satellite DNAs revealed the presence of both centromeric sequences in the translocated chromosome. The reciprocal translocation resulted in a partial deletion of the short arm of both chromosomes 21, and 22, with the ribosomal RNA genes remaining present in the middle part of the new metacentric chromosome. The rearrangement did not cause alterations to the long arm. The spread of an asymptomatic heterozygous chromosomal polymorphism in a population can lead to mating between heterozygous individuals, potentially resulting in offspring with a homozygous chromosomal configuration for the anomaly they carry. This new karyotype may not produce phenotypic effects in the individual who presents it. The frequency of karyotypes with chromosomal rearrangements in asymptomatic heterozygous form in human populations is likely underestimated, and molecular karyotype by array Comparative Genomic Hybridization (array-CGH) analysis does not allow for the identification of this type of chromosomal anomaly, making classical cytogenetic analysis the preferred method for obtaining clear results on a karyotype carrying a balanced rearrangement. [ABSTRACT FROM AUTHOR]

Published

2024

21. Comparative analysis of craniofacial shape in two mouse models of Down syndrome: Ts65Dn and TcMAC21.

Author

Singh, Nandini, Richtsmeier, Joan T., and Reeves, Roger H.

Subjects

*DOWN syndrome, *LABORATORY mice, *HUMAN chromosomes, *COMPARATIVE studies, *QUANTITATIVE research

Abstract

Mouse models are central to studying and understanding the genotypic‐to‐phenotypic outcomes of Down syndrome (DS), a complex condition caused by an extra copy of the long arm of human chromosome 21. The recently developed TcMAC21—a transchromosomic mouse strain with comparable gene dosage to human chromosome 21 (Hsa21)—includes more Hsa21 genes than any other model of DS. Recent studies on TcMAC21 have provided valuable insight into the molecular, physiological, and neuroanatomical aspects of the model. However, relatively little is known about the craniofacial phenotype of TcMAC21 mice, particularly as it compares to the widely studied Ts65Dn model. Here we conducted a quantitative study of the cranial morphology of TcMAC21 and Ts65Dn mice and their respective unaffected littermates. Our comparative data comprise forty three‐dimensional cranial measurements taken on micro‐computed tomography scans of the heads of TcMAC21 and Ts65Dn mice. Our results show that TcMAC21 exhibit similar patterns of craniofacial change to Ts65Dn. However, the DS‐specific morphology is more pronounced in Ts65Dn mice. Specifically, Ts65Dn present with more medio‐lateral broadening and retraction of the snout compared to TcMAC21. Our findings reveal the complexity of potential gene interaction in the production of craniofacial phenotypes. [ABSTRACT FROM AUTHOR]

Published

2024

22. Precise identification of cascading alpha satellite higher order repeats in T2T-CHM13 assembly of human chromosome 3.

Author

Glunčić, Matko, Vlahović, Ines, Rosandić, Marija, and Paar, Vladimir

Subjects

*HUMAN chromosomes, *CENTROMERE, *MONOMERS, *CHROMOSOMES

Abstract

Aim To precisely identify and analyze alpha-satellite higher- order repeats (HORs) in T2T-CHM13 assembly of human chromosome 3. Methods From the recently sequenced complete T2TCHM13 assembly of human chromosome 3, the precise alpha satellite HOR structure was computed by using the novel high-precision GRM2023 algorithm with global repeat map (GRM) and monomer distance (MD) diagrams. Results The major alpha satellite HOR array in chromo-some 3 revealed a novel cascading HOR, housing 17mer HOR copies with subfragments of periods 15 and 2. Within each row in the cascading HOR, the monomers were of different types, but different rows within the same cascading 17mer HOR contained more than one monomer of the same type. Each canonical 17mer HOR copy comprised 17 monomers belonging to 16 different monomer types. Another pronounced 10mer HOR array was of the regular Willard's type. Conclusion Our findings emphasize the complexity within the chromosome 3 centromere as well as deviations from expected highly regular patterns. [ABSTRACT FROM AUTHOR]

Published

2024

23. ViroISDC: a method for calling integration sites of hepatitis B virus based on feature encoding.

Author

Qiao, Lei, Li, Chang, Lin, Wei, He, Xiaoqi, Mi, Jia, Tong, Yigang, and Gao, Jingyang

Subjects

*HEPATITIS B virus, *HUMAN chromosomes, *HEPATITIS B, *SONICATION, *GRAMMAR

Abstract

Background: Hepatitis B virus (HBV) integrates into human chromosomes and can lead to genomic instability and hepatocarcinogenesis. Current tools for HBV integration site detection lack accuracy and stability. Results: This study proposes a deep learning-based method, named ViroISDC, for detecting integration sites. ViroISDC generates corresponding grammar rules and encodes the characteristics of the language data to predict integration sites accurately. Compared with Lumpy, Pindel, Seeksv, and SurVirus, ViroISDC exhibits better overall performance and is less sensitive to sequencing depth and integration sequence length, displaying good reliability, stability, and generality. Further downstream analysis of integrated sites detected by ViroISDC reveals the integration patterns and features of HBV. It is observed that HBV integration exhibits specific chromosomal preferences and tends to integrate into cancerous tissue. Moreover, HBV integration frequency was higher in males than females, and high-frequency integration sites were more likely to be present on hepatocarcinogenesis- and anti-cancer-related genes, validating the reliability of the ViroISDC. Conclusions: ViroISDC pipeline exhibits superior precision, stability, and reliability across various datasets when compared to similar software. It is invaluable in exploring HBV infection in the human body, holding significant implications for the diagnosis, treatment, and prognosis assessment of HCC. [ABSTRACT FROM AUTHOR]

Published

2024

24. Analysis of CENP-B Boxes as Anchor of Kinetochores in Centromeres of Human Chromosomes.

Author

Parl, Fritz F

Subjects

*HUMAN chromosomes, *CENTROMERE, *KINETOCHORE, *SPINDLE apparatus, *CHROMOSOMES, *MICROTUBULES, *FORKHEAD transcription factors

Abstract

The kinetochore is a multiprotein structure that attaches at one end to DNA in the centromere and at the other end to microtubules in the mitotic spindle. By connecting centromere and spindle, the kinetochore controls the migration of chromosomes during cell division. The exact position where the kinetochore assembles on each centromere was uncertain because large sections of centromeric DNA had not been sequenced due to highly repetitive alpha-satellite arrays. Embedded in the arrays is a 17 bp consensus sequence, the so-called CENP-B box, which binds the CENP-B protein, the only protein that binds directly to centromeric DNA. Recently, the Telomere-to-Telomere Consortium published the complete centromeric DNA sequences of all chromosomes including their epigenetic modifications in the T2T-CHM13 map. I used data from the T2T-CHM13 map to locate the CENP-B boxes in the centromeres as anchor of kinetochores. Most of the CENP-B boxes in centromeric DNA are methylated with the exception of the so-called centromere dip region (CDR), where CENP-B protein dimers bind to adjacent unmethylated CENP-B boxes and interact with CENP-A and CENP-C proteins to assemble the kinetochore. The centromeres of all chromosomes combined have a size of 407 Mb of which the kinetochores account for 5.0 Mb or 1.2%. There is no correlation between centromere and kinetochore size (P =.77). While the number of CENP-B boxes varies 4-fold between chromosomes, their density (number/Kb) varies less than 2-fold with a mean of 2.61 ± 0.33. The narrow range ensures a uniform pull of the spindle on the centromeres. I illustrate the findings in a model of the human kinetochore anchored at unmethylated CENP-B boxes in the CDR and present circos plots of chromosomes to show the location of kinetochores in their respective centromeres. [ABSTRACT FROM AUTHOR]

Published

2024

25. Inference of genomic landscapes using ordered Hidden Markov Models with emission densities (oHMMed).

Author

Vogl, Claus, Karapetiants, Mariia, Yıldırım, Burçin, Kjartansdóttir, Hrönn, Kosiol, Carolin, Bergman, Juraj, Majka, Michal, and Mikula, Lynette Caitlin

Subjects

*HIDDEN Markov models, *HUMAN chromosomes, *CONTINUOUS distributions, *MARKOV chain Monte Carlo, *GENE expression, *ZOOLOGICAL nomenclature

Abstract

Background: Genomes are inherently inhomogeneous, with features such as base composition, recombination, gene density, and gene expression varying along chromosomes. Evolutionary, biological, and biomedical analyses aim to quantify this variation, account for it during inference procedures, and ultimately determine the causal processes behind it. Since sequential observations along chromosomes are not independent, it is unsurprising that autocorrelation patterns have been observed e.g., in human base composition. In this article, we develop a class of Hidden Markov Models (HMMs) called oHMMed (ordered HMM with emission densities, the corresponding R package of the same name is available on CRAN): They identify the number of comparably homogeneous regions within autocorrelated observed sequences. These are modelled as discrete hidden states; the observed data points are realisations of continuous probability distributions with state-specific means that enable ordering of these distributions. The observed sequence is labelled according to the hidden states, permitting only neighbouring states that are also neighbours within the ordering of their associated distributions. The parameters that characterise these state-specific distributions are inferred. Results: We apply our oHMMed algorithms to the proportion of G and C bases (modelled as a mixture of normal distributions) and the number of genes (modelled as a mixture of poisson-gamma distributions) in windows along the human, mouse, and fruit fly genomes. This results in a partitioning of the genomes into regions by statistically distinguishable averages of these features, and in a characterisation of their continuous patterns of variation. In regard to the genomic G and C proportion, this latter result distinguishes oHMMed from segmentation algorithms based in isochore or compositional domain theory. We further use oHMMed to conduct a detailed analysis of variation of chromatin accessibility (ATAC-seq) and epigenetic markers H3K27ac and H3K27me3 (modelled as a mixture of poisson-gamma distributions) along the human chromosome 1 and their correlations. Conclusions: Our algorithms provide a biologically assumption free approach to characterising genomic landscapes shaped by continuous, autocorrelated patterns of variation. Despite this, the resulting genome segmentation enables extraction of compositionally distinct regions for further downstream analyses. [ABSTRACT FROM AUTHOR]

Published

2024

26. Novel Concept of Alpha Satellite Cascading Higher-Order Repeats (HORs) and Precise Identification of 15mer and 20mer Cascading HORs in Complete T2T-CHM13 Assembly of Human Chromosome 15.

Author

Glunčić, Matko, Vlahović, Ines, Rosandić, Marija, and Paar, Vladimir

Subjects

*HUMAN chromosomes, *CENTROMERE, *CHROMOSOME structure, *CHROMOSOMES, *GENETIC disorders, *MONOMERS

Abstract

Unraveling the intricate centromere structure of human chromosomes holds profound implications, illuminating fundamental genetic mechanisms and potentially advancing our comprehension of genetic disorders and therapeutic interventions. This study rigorously identified and structurally analyzed alpha satellite higher-order repeats (HORs) within the centromere of human chromosome 15 in the complete T2T-CHM13 assembly using the high-precision GRM2023 algorithm. The most extensive alpha satellite HOR array in chromosome 15 reveals a novel cascading HOR, housing 429 15mer HOR copies, containing 4-, 7- and 11-monomer subfragments. Within each row of cascading HORs, all alpha satellite monomers are of distinct types, as in regular Willard's HORs. However, different HOR copies within the same cascading 15mer HOR contain more than one monomer of the same type. Each canonical 15mer HOR copy comprises 15 monomers belonging to only 9 different monomer types. Notably, 65% of the 429 15mer cascading HOR copies exhibit canonical structures, while 35% display variant configurations. Identified as the second most extensive alpha satellite HOR, another novel cascading HOR within human chromosome 15 encompasses 164 20mer HOR copies, each featuring two subfragments. Moreover, a distinct pattern emerges as interspersed 25mer/26mer structures differing from regular Willard's HORs and giving rise to a 34-monomer subfragment. Only a minor 18mer HOR array of 12 HOR copies is of the regular Willard's type. These revelations highlight the complexity within the chromosome 15 centromeric region, accentuating deviations from anticipated highly regular patterns and hinting at profound information encoding and functional potential within the human centromere. [ABSTRACT FROM AUTHOR]

Published

2024

27. Integrative analysis of DNA replication origins and ORC-/MCM- binding sites in human cells reveals a lack of overlap.

Author

Mengxue Tian, Zhenjia Wang, Zhangli Su, Etsuko Shibata, Yoshiyuki Shibata, Anindya Dutta, and Chongzhi Zang

Subjects

*DNA analysis, *DNA replication, *BINDING sites, *HUMAN chromosomes, *HUMAN origins, *CELL cycle

Abstract

Based on experimentally determined average inter-origin distances of ~100 kb, DNA replication initiates from ~50,000 origins on human chromosomes in each cell cycle. The origins are believed to be specified by binding of factors like the origin recognition complex (ORC) or CTCF or other features like G-quadruplexes. We have performed an integrative analysis of 113 genome-wide human origin profiles (from five different techniques) and five ORC-binding profiles to critically evaluate whether the most reproducible origins are specified by these features. Out of ~7.5 million union origins identified by all datasets, only 0.27% (20,250 shared origins) were reproducibly obtained in at least 20 independent SNS-seq datasets and contained in initiation zones identified by each of three other techniques, suggesting extensive variability in origin usage and identification. Also, 21% of the shared origins overlap with transcriptional promoters, posing a conundrum. Although the shared origins overlap more than union origins with constitutive CTCF-binding sites, G-quadruplex sites, and activating histone marks, these overlaps are comparable or less than that of known transcription start sites, so that these features could be enriched in origins because of the overlap of origins with epigenetically open, promoter-like sequences. Only 6.4% of the 20,250 shared origins were within 1 kb from any of the ~13,000 reproducible ORC-binding sites in human cancer cells, and only 4.5% were within 1 kb of the ~11,000 union MCM2-7-binding sites in contrast to the nearly 100% overlap in the two comparisons in the yeast, Saccharomyces cerevisiae. Thus, in human cancer cell lines, replication origins appear to be specified by highly variable stochastic events dependent on the high epigenetic accessibility around promoters, without extensive overlap between the most reproducible origins and currently known ORC-or MCM-binding sites. [ABSTRACT FROM AUTHOR]

Published

2024

28. Association between Interleukin-19 Concentration and Degree of Severity of Acne Vulgaris.

Author

Albalat, Waleed Mohamed, Elsaid, Hanaa Hosny, and Ibrahim, Hadeer Helmy

Subjects

*ACNE, *HUMAN chromosomes, *GENOMICS, *AGE of onset, *GENE clusters

Abstract

Background: Acne vulgaris is a multifactorial disease associated with pilosebaceous follicle and results in inflammatory and non-inflammatory lesions. Interleukin-19 was identified for the first time in 2000 by analysis of genomic sequences for IL-10 homologues, the genetic location for IL-19 on human chromosome 1q32, and is closely linked to IL-10 as part of a gene cluster with IL-20 and IL-24. The study aimed to measure serum IL-19 levels in different degrees of severity of acne vulgaris patients for better understanding of its role in the etiopathogenesis of acne, and to prove if there is a possible correlation between serum Interleukin 19 level and the degree of severity of the acne. Methods: Our study was a case control study done at out-patient clinic of Dermatology, Venereology and Andrology Department at Zagazig University Hospitals. The study included 48 individuals divided into 2 groups: Patient group: 36 patients with acne vulgaris (12 mild, 12 moderate, 12 severe) Control group: 12 healthy persons. All subjects in this study were subjected to history taking and assessment of the severity of acne using acne staging and laboratory investigation (IL-19). Results: There was statistically significant difference in serum IL-19 between the different grades of the disease severity. Analysis revealed significant difference in IL19 serum concentration between (mild and moderate group) and (moderate and severe group), While highly significant difference was found between IL-19 serum concentration of mild cases group and severe cases group. Serum IL-19 level was not statistically related to the age of onset, family history, gender, and previous treatment. Conclusions: From this study we could prove that IL-19 is related to the inflammatory etiopathogenesis of mild, moderate and severe acne vulgaris. Also, Serum IL-19 level has significant statistical difference between the different grades of acne vulgaris severity. [ABSTRACT FROM AUTHOR]

Published

2024

29. Toward Human Chromosome Knowledge Engine.

Author

Wang, Maiqi, Lai, Yi, Li, Minghui, Zhang, Haoxi, and Szczerbicki, Edward

Abstract

Human chromosomes carry genetic information about our life. Chromosome classification is crucial for karyotype analysis. Existing chromosome classification methods do not take into account reasoning, such as: analyzing the relationship between variables, modeling uncertainty, and performing causal reasoning. In this paper, we introduce a knowledge engine for reasoning-based human chromosome classification that stores knowledge of chromosomes via a novel representation structure, the Chromosome Part Description (CPD), and reasons over CPDs by utilizing the probability tree model (PTM) for classification. Each CPD keeps information on a particular feature of chromosomes, while the PTM provides causal reasoning capability taking CPDs as nodes and dependencies between CPDs and types as edges. Experimental results show that the proposed knowledge engine's performance increases when providing more CPDs and achieves 100% classification accuracy with more than three CPDs. [ABSTRACT FROM AUTHOR]

Published

2024

30. A working model for the formation of Robertsonian chromosomes.

Author

Gerton, Jennifer L.

Subjects

*CHROMOSOMES, *HUMAN chromosomes, *MEIOTIC drive, *DOWN syndrome, *MICE, *KARYOTYPES, *CELL fusion

Abstract

Robertsonian chromosomes form by fusion of two chromosomes that have centromeres located near their ends, known as acrocentric or telocentric chromosomes. This fusion creates a new metacentric chromosome and is a major mechanism of karyotype evolution and speciation. Robertsonian chromosomes are common in nature and were first described in grasshoppers by the zoologist W. R. B. Robertson more than 100 years ago. They have since been observed in many species, including catfish, sheep, butterflies, bats, bovids, rodents and humans, and are the most common chromosomal change in mammals. Robertsonian translocations are particularly rampant in the house mouse, Mus musculus domesticus, where they exhibit meiotic drive and create reproductive isolation. Recent progress has been made in understanding how Robertsonian chromosomes form in the human genome, highlighting some of the fundamental principles of how and why these types of fusion events occur so frequently. Consequences of these fusions include infertility and Down's syndrome. In this Hypothesis, I postulate that the conditions that allow these fusions to form are threefold: (1) sequence homology on non-homologous chromosomes, often in the form of repetitive DNA; (2) recombination initiation during meiosis; and (3) physical proximity of the homologous sequences in threedimensional space. This Hypothesis highlights the latest progress in understanding human Robertsonian translocations within the context of the broader literature on Robertsonian chromosomes. [ABSTRACT FROM AUTHOR]

Published

2024

31. Efficient formation of single-copy human artificial chromosomes.

Author

Gambogi, Craig W., Birchak, Gabriel J., Mer, Elie, Brown, David M., Yankson, George, Kixmoeller, Kathryn, Gavade, Janardan N., Espinoza, Josh L., Kashyap, Prakriti, Dupont, Chris L., Logsdon, Glennis A., Heun, Patrick, Glass, John I., and Black, Ben E.

Subjects

*ARTIFICIAL chromosomes, *CENTROMERE, *HUMAN chromosomes, *CHROMOSOMES, *CHROMATIN, *EPIGENETICS, *HEREDITY

Abstract

Large DNA assembly methodologies underlie milestone achievements in synthetic prokaryotic and budding yeast chromosomes. While budding yeast control chromosome inheritance through ~125-base pair DNA sequence-defined centromeres, mammals and many other eukaryotes use large, epigenetic centromeres. Harnessing centromere epigenetics permits human artificial chromosome (HAC) formation but is not sufficient to avoid rampant multimerization of the initial DNA molecule upon introduction to cells. We describe an approach that efficiently forms single-copy HACs. It employs a ~750-kilobase construct that is sufficiently large to house the distinct chromatin types present at the inner and outer centromere, obviating the need to multimerize. Delivery to mammalian cells is streamlined by employing yeast spheroplast fusion. These developments permit faithful chromosome engineering in the context of metazoan cells. [ABSTRACT FROM AUTHOR]

Published

2024

32. Transcription-induced active forces suppress chromatin motion.

Author

Sucheol Shin, Guang Shi, Hyun Woo Cho, and Thirumalai, D.

Subjects

*CHROMATIN, *RNA polymerase II, *HUMAN chromosomes, *TRANSCRIPTION factors, *CHROMOSOMES, *PROMOTERS

Abstract

The organization of interphase chromosomes in a number of species is starting to emerge thanks to advances in a variety of experimental techniques. However, much less is known about the dynamics, especially in the functional states of chromatin. Some experiments have shown that the motility of individual loci in human interphase chromosome decreases during transcription and increases upon inhibiting transcription. This is a counterintuitive finding because it is thought that the active mechanical force (F) on the order of ten piconewtons, generated by RNA polymerase II (RNAPII) that is presumably transmitted to the gene-rich region of the chromatin, would render it more open, thus enhancing the mobility. We developed a minimal active copolymer model for interphase chromosomes to investigate how F affects the dynamical properties of chromatin. The movements of the loci in the gene-rich region are suppressed in an intermediate range of F and are enhanced at small F values, which has also been observed in experiments. In the intermediate F, the bond length between consecutive loci increases, becoming commensurate with the distance at the minimum of the attractive interaction between nonbonded loci. This results in a transient disorder-to-order transition, leading to a decreased mobility during transcription. Strikingly, the F-dependent change in the locus dynamics preserves the organization of the chromosome at F = 0. Transient ordering of the loci, which is not found in the polymers with random epigenetic profiles, in the gene-rich region might be a plausible mechanism for nucleating a dynamic network involving transcription factors, RNAPII, and chromatin. [ABSTRACT FROM AUTHOR]

Published

2024

33. Karyotyping of human chromosomes in metaphase images using faster R‐CNN and inception models.

Author

Chavan, Satishkumar, Nair, Leeaa, Nimbalkar, Nishant, and Solkar, Sarah

Subjects

*KARYOTYPES, *HUMAN chromosomes, *SEX chromosomes, *CONVOLUTIONAL neural networks, *OBJECT recognition (Computer vision), *CHROMOSOMES, *LIFTING & carrying (Human mechanics)

Abstract

Karyotyping is the process of pairing and ordering human chromosomes from metaphase chromosomal images depending on their size, centromere position, and banding patterns. It is used to analyze human chromosomes for various genetic disorders especially during prenatal screenings. Since manual karyotyping is a labor‐intensive and a time‐consuming task, developing an automatic or semi‐automatic computer‐assisted karyotyping system is the need of the hour. The proposed karyotyping system aims to detect human chromosomes (22 pairs of autosomes and one pair of sex chromosome) from the microscopic metaphase images which is followed by separation of overlapped chromosomes. Extracted chromosomes are first classified into seven Denver groups (A to G) followed by classifying individual chromosomes within their Denver group. Then the classified chromosome pairs are used to create a karyotype with the assistance of cytologists or by using estimated chromosome length as cytogenetic parameter. A total of 234 chromosomal images from two different public datasets are used for experimentation. Human chromosomes in the microscopic metaphase images are detected using faster regions with convolutional neural networks (Faster R‐CNN) combined with Inception v2. Then convexity defect algorithm is preferred for separation of overlapped chromosomes. The detected chromosomes are classified using the proposed two‐step approach in which Inception v3 model is used. Then the classified chromosome pairs are used to create a karyotype with the assistance of cytologists or by using estimated chromosome length as cytogenetic parameter. Faster R‐CNN model gives a detection accuracy of 98.53%. Denver group classification with the two‐step approach provides a better accuracy of 84.59% when network is trained for 64 902 epochs. Faster R‐CNN outperforms in detection and works faster as it searches chromosomes within the regional proposals. The two‐step classification approach gives better classification accuracy. The proposed approach also works very well for overlapping chromosomes due to use of convexity defects algorithm. The classified chromosome pairs are useful tools for the cytologists to create a karyotype with minimal efforts. [ABSTRACT FROM AUTHOR]

Published

2024

34. Forensic Applications of Markers Present on the X Chromosome.

Author

Al-Tabra, Reem Husam, Lateef Mahdi, Asia Abdul, Al-Zubaidi, Mohammed Mahdi, Ibrahim Al-sammarraie, Halah Khalid, Al-sammarraie, Ibrahim, Abd el_Jabbar, Ban Ameen, and Hameed, Sura Nabil

Subjects

X chromosome, CHROMOSOME analysis, SEX chromosomes, DNA analysis, HUMAN chromosomes, FORENSIC sciences

Abstract

The X chromosome is one of the two sex chromosomes found in humans and other mammals. It plays a crucial role in determining an individual's sex and contains genetic information that can be useful in forensic and human identity testing. Unlike autosomal DNA, which is inherited from both parents, the X chromosome is inherited differently in males and females, making it useful in certain types of analyses. In forensic investigations, the X chromosome can be used to determine the sex of an individual, which can be useful in identifying potential suspects or victims. Additionally, X chromosome analysis can be used to link evidence samples to a particular individual or to exclude individuals as potential contributors of the evidence. This can be particularly useful in cases where the evidence sample is a mixture of DNA from multiple individuals. In human identity testing, the X chromosome can be used in situations where other types of DNA analysis are not possible or inconclusive. For example, in cases where a potential parent is unavailable for testing, analysis of the X chromosome can be used to determine if a child is likely to be their biological offspring. Similarly, in cases where traditional autosomal DNA analysis is inconclusive, X chromosome analysis can be used to provide additional information about the biological relationship between individuals. However, there are some limitations to the use of X chromosome analysis in forensic and human identity testing. One limitation is that it is not as informative as autosomal DNA analysis, as it contains less genetic information. Additionally, the inheritance patterns of the X chromosome can be complex, particularly in cases where there are multiple generations involved. Therefore, X chromosome analysis should be interpreted in conjunction with other types of DNA analysis and other forms of evidence to ensure accurate and reliable results. Overall, the use of X chromosome analysis in forensic and human identity testing can provide important information in certain situations, particularly where traditional DNA analysis is not possible or inconclusive. As such, it is an important tool in the fields of forensic science and human identification. [ABSTRACT FROM AUTHOR]

Published

2024

35. Long Intergenic Non-Coding RNAs of Human Chromosome 18: Focus on Cancers.

Author

Ershov, Pavel V., Yablokov, Evgeniy O., Mezentsev, Yuri V., and Ivanov, Alexis S.

Subjects

LINCRNA, HUMAN chromosomes, MOLECULAR biology, EPIGENOMICS, GENE expression, NON-coding RNA

Abstract

Malignant neoplasms are characterized by high molecular heterogeneity due to multilevel deregulation of gene expression and cellular functions. It is known that non-coding RNAs, including long intergenic non-coding RNAs (lincRNAs), can play significant roles in cancer biology. The current review focuses on a systematical analysis of genomic, transcriptomic, epigenomic, interactomic, and literature data on 65 lincRNAs of human chromosome 18 in the context of pan-cancer studies. The entire group of lincRNAs can be conditionally divided into 4 subgroups depending on experimental evidence on direct or indirect involvement in cancers and the biological associations with cancers, which we found during the data-mining process: the most studied (5 lincRNAs), moderately or poorly studied (11 lincRNAs), and understudied (31 lincRNAs). For the remaining 18 lincRNAs, data for analysis were fragmentary or missing. Among the key findings were the following: Of the lincRNAs of human chromosome 18, 40% have tissue-specific expression patterns, 22% of lincRNAs are known to have gene fusions, 40% of lincRNAs are prone to gene amplifications and/or deletions in cancers at a frequency greater than 3%, and 23% of lincRNAs are differentially expressed across cancer types, whereas 7% have subtype-specific expression patterns. LincRNAs' interactomes consist of 'master' microRNAs and 47 proteins (including cancer-associated proteins and microRNAs) that can interact with 3 or more lincRNAs. Functional enrichment analysis of a set of highly co-expressed genes retrieved for 17 lincRNAs in different cancer types indicated the potential associations of these lincRNAs with cellular signaling pathways. Six lincRNAs encoded small open-reading frame (smORF) proteins with emerging roles in cancers, and microRNAs as well as proteins with known functions in molecular carcinogenesis can bind to coding regions of smORFs. We identified seven transcriptomic signatures with potential prognostic value, consisting of two to seven different lincRNAs only. Taken together, the literature, biomedical, and molecular biology data analyzed indicated that only five of all lincRNAs of human chromosome 18 are cancer-associated, while eleven other lincRNAs have the tendency to be associated with cancers. [ABSTRACT FROM AUTHOR]

Published

2024

36. Monoallelically expressed noncoding RNAs form nucleolar territories on NOR-containing chromosomes and regulate rRNA expression.

Author

Qinyu Hao, Minxue Liu, Daulatabad, Swapna Vidhur, Gaffari, Saba, You Jin Song, Srivastava, Rajneesh, Bhaskar, Shivang, Moitra, Anurupa, Mangan, Hazel, Tseng, Elizabeth, Gilmore, Rachel B., Frier, Susan M., Xin Chen, Chengliang Wang, Sui Huang, Chamberlain, Stormy, Hong Jin, Korlach, Jonas, McStay, Brian, and Sinha, Saurabh

Subjects

*GENE expression, *NON-coding RNA, *CHROMOSOMES, *RIBOSOMAL RNA, *HUMAN chromosomes

Abstract

Out of the several hundred copies of rRNA genes arranged in the nucleolar organizing regions (NOR) of the five human acrocentric chromosomes, ~50% remain transcriptionally inactive. NOR-associated sequences and epigenetic modifications contribute to the differential expression of rRNAs. However, the mechanism(s) controlling the dosage of active versus inactive rRNA genes within each NOR in mammals is yet to be determined. We have discovered a family of ncRNAs, SNULs (Single NUcleolus Localized RNA), which form constrained sub-nucleolar territories on individual NORs and influence rRNA expression. Individual members of the SNULs monoallelically associate with specific NOR-containing chromosomes. SNULs share sequence similarity to pre-rRNA and localize in the sub-nucleolar compartment with pre-rRNA. Finally, SNULs control rRNA expression by influencing pre-rRNA sorting to the DFC compartment and pre-rRNA processing. Our study discovered a novel class of ncRNAs influencing rRNA expression by forming constrained nucleolar territories on individual NORs. [ABSTRACT FROM AUTHOR]

Published

2024

37. Tigerfish designs oligonucleotide-based in situ hybridization probes targeting intervals of highly repetitive DNA at the scale of genomes.

Author

Aguilar, Robin, Camplisson, Conor K., Lin, Qiaoyi, Miga, Karen H., Noble, William S., and Beliveau, Brian J.

Subjects

IN situ hybridization, OLIGONUCLEOTIDES, DNA probes, FLUORESCENCE in situ hybridization, MOLECULAR probes, HUMAN chromosomes, DNA, GENOMES

Abstract

Fluorescent in situ hybridization (FISH) is a powerful method for the targeted visualization of nucleic acids in their native contexts. Recent technological advances have leveraged computationally designed oligonucleotide (oligo) probes to interrogate > 100 distinct targets in the same sample, pushing the boundaries of FISH-based assays. However, even in the most highly multiplexed experiments, repetitive DNA regions are typically not included as targets, as the computational design of specific probes against such regions presents significant technical challenges. Consequently, many open questions remain about the organization and function of highly repetitive sequences. Here, we introduce Tigerfish, a software tool for the genome-scale design of oligo probes against repetitive DNA intervals. We showcase Tigerfish by designing a panel of 24 interval-specific repeat probes specific to each of the 24 human chromosomes and imaging this panel on metaphase spreads and in interphase nuclei. Tigerfish extends the powerful toolkit of oligo-based FISH to highly repetitive DNA. Repetitive DNA intervals play important roles in the nucleus but are difficult to study due to their reiterated nature. Tigerfish introduces a novel computational platform for the design of interval-specific in situ hybridization probes. [ABSTRACT FROM AUTHOR]

Published

2024

38. Comparative Bioinformatic Analysis of the Proteomes of Rabbit and Human Sex Chromosomes.

Author

Pinto-Pinho, Patrícia, Soares, João, Esteves, Pedro, Pinto-Leite, Rosário, Fardilha, Margarida, and Colaço, Bruno

Subjects

*HUMAN chromosomes, *MEMBRANE proteins, *SPERMATOZOA, *SEXING of animals, *PROTEOMICS, *SEX chromosomes, *RABBITS, *X chromosome, *CELL membranes

Abstract

Simple Summary: Due to limited proteomic data for rabbit spermatozoa and less comprehensive databases compared to humans, we conducted a combined bioinformatic analysis of the proteome of rabbit X (RX) and human X and Y (HX and HY) chromosomes to identify membrane-associated proteins, particularly those accessible from the cell surface, for potential applications in sperm sexing techniques. Our analysis found 100 (RX), 211 (HX), and 3 (HY) plasma membrane or cell surface-associated proteins, of which 61, 132, and 3 are potentially accessible from the cell surface. Notably, among the HX targets, 60 could serve as additional RX targets not previously identified, bringing the total to 121 RX targets. Furthermore, at least 53 out of the 114 potential common HX and RX targets chromosomes have been previously identified in human spermatozoa, emphasizing their potential as targets of X-chromosome-bearing spermatozoa. The utility of these proteins as targets of rabbit X-chromosome-bearing spermatozoa warrants further exploration. Studying proteins associated with sex chromosomes can provide insights into sex-specific proteins. Membrane proteins accessible through the cell surface may serve as excellent targets for diagnostic, therapeutic, or even technological purposes, such as sperm sexing technologies. In this context, proteins encoded by sex chromosomes have the potential to become targets for X- or Y-chromosome-bearing spermatozoa. Due to the limited availability of proteomic studies on rabbit spermatozoa and poorly annotated databases for rabbits compared to humans, a bioinformatic analysis of the available rabbit X chromosome proteome (RX), as well as the human X (HX) and Y (HY) chromosomes proteome, was conducted to identify potential targets that could be accessible from the cell surface and predict which of the potential targets identified in humans might also exist in rabbits. We identified 100, 211, and 3 proteins associated with the plasma membrane or cell surface for RX, HX, and HY, respectively, of which 61, 132, and 3 proteins exhibit potential as targets as they were predicted to be accessible from the cell surface. Cross-referencing the potential HX targets with the rabbit proteome revealed an additional 60 proteins with the potential to be RX targets, resulting in a total of 121 potential RX targets. In addition, at least 53 possible common HX and RX targets have been previously identified in human spermatozoa, emphasizing their potential as targets of X-chromosome-bearing spermatozoa. Further proteomic studies on rabbit sperm will be essential to identify and validate the usefulness of these proteins for application in rabbit sperm sorting techniques as targets of X-chromosome-bearing spermatozoa. [ABSTRACT FROM AUTHOR]

Published

2024

39. The lncRNA H19/miR-29a-3p/SNIP1/c-myc regulatory axis is involved in pulmonary fibrosis induced by Nd2O3.

Author

Bu, Ning, Wang, Shurui, Ma, Yupeng, Xia, Haibo, Zhao, Yuhang, Shi, Xuemin, Liu, Qizhan, Wang, Suhua, and Gao, Yanrong

Subjects

*PULMONARY fibrosis, *LINCRNA, *RARE earth metals, *HUMAN chromosomes, *GENOMIC imprinting, *GENE clusters

Abstract

Some rare earth elements are occupational and environmental toxicants and can cause organ and systemic damage; therefore, they have attracted global attention. Neodymium oxide (Nd2O3) is a rare earth element that is refined and significantly utilized in China. The long noncoding RNA (lncRNA) H19 is encoded by the H19/IGF2 imprinted gene cluster located on human chromosome 11p15.5. H19 has become a research focus due to its ectopic expression leading to the promotion of fibrosis. However, the mechanisms by which it causes pulmonary fibrosis are elusive. This investigation indicates that biologically active Nd2O3 increases H19, SNIP1, and c-myc, decreases miR-29a-3p, accelerates macrophage M2 polarization, and causes pulmonary fibrosis in mice lung tissues. In macrophage-differentiated THP-1 cells, Nd2O3 (25 μg/ml) enhanced H19, SNIP1, and c-myc, reduced miR-29a-3p, accelerated macrophages M2 polarization, and stimulated fibrogenic cytokine (TGF-β1) secretion. Furthermore, the coculturing of Nd2O3-treated macrophage-differentiated THP-1 cells. And human embryonic lung fibroblast cells activated lung fibroblast, which increases the levels of collagen I, α-SMA, p-Smad2/3, and Smad4, whereas H19 knockdown or miR-29a-3p upregulation in macrophages had opposite effects. Moreover, it was revealed that H19/miR-29a-3p/SNIP1/c-myc regulatory axis is involved in pulmonary fibrosis induced by Nd2O3. Therefore, this study provides new molecular insights into the mechanism of pulmonary fibrosis by Nd2O3. [ABSTRACT FROM AUTHOR]

Published

2024

40. Hexavalent Chromium Targets Securin to Drive Numerical Chromosome Instability in Human Lung Cells.

Author

Toyoda, Jennifer H., Martino, Julieta, Speer, Rachel M., Meaza, Idoia, Lu, Haiyan, Williams, Aggie R., Bolt, Alicia M., Kouokam, Joseph Calvin, Aboueissa, Abou El-Makarim, and Wise Sr., John Pierce

Subjects

*HEXAVALENT chromium, *HUMAN chromosomes, *LUNGS, *DISEASE risk factors, *CENTROMERE, *CHROMOSOMES, *GENE amplification

Abstract

Hexavalent chromium [Cr(VI)] is a known human lung carcinogen with widespread exposure in environmental and occupational settings. Despite well-known cancer risks, the molecular mechanisms of Cr(VI)-induced carcinogenesis are not well understood, but a major driver of Cr(VI) carcinogenesis is chromosome instability. Previously, we reported Cr(VI) induced numerical chromosome instability, premature centriole disengagement, centrosome amplification, premature centromere division, and spindle assembly checkpoint bypass. A key regulator of these events is securin, which acts by regulating the cleavage ability of separase. Thus, in this study we investigated securin disruption by Cr(VI) exposure. We exposed human lung cells to a particulate Cr(VI) compound, zinc chromate, for acute (24 h) and prolonged (120 h) time points. We found prolonged Cr(VI) exposure caused marked decrease in securin levels and function. After prolonged exposure at the highest concentration, securin protein levels were decreased to 15.3% of control cells, while securin mRNA quantification was 7.9% relative to control cells. Additionally, loss of securin function led to increased separase activity manifested as enhanced cleavage of separase substrates; separase, kendrin, and SCC1. These data show securin is targeted by prolonged Cr(VI) exposure in human lung cells. Thus, a new mechanistic model for Cr(VI)-induced carcinogenesis emerges with centrosome and centromere disruption as key components of numerical chromosome instability, a key driver in Cr(VI) carcinogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

41. Understanding the genetic mechanisms and cognitive impairments in Down syndrome: towards a holistic approach.

Author

Abukhaled, Yara, Hatab, Kenana, Awadhalla, Mohammad, and Hamdan, Hamdan

Subjects

*COGNITION disorders, *DOWN syndrome, *HUMAN chromosomes, *THERAPEUTICS

Abstract

The most common genetic cause of intellectual disability is Down syndrome (DS), trisomy 21. It commonly results from three copies of human chromosome 21 (HC21). There are no mutations or deletions involved in DS. Instead, the phenotype is caused by altered transcription of the genes on HC21. These transcriptional variations are responsible for a myriad of symptoms affecting every organ system. A very debilitating aspect of DS is intellectual disability (ID). Although tremendous advances have been made to try and understand the underlying mechanisms of ID, there is a lack of a unified, holistic view to defining the cause and managing the cognitive impairments. In this literature review, we discuss the mechanisms of neuronal over-inhibition, abnormal morphology, and other genetic factors in contributing to the development of ID in DS patients and to gain a holistic understanding of ID in DS patients. We also highlight potential therapeutic approaches to improve the quality of life of DS patients. [ABSTRACT FROM AUTHOR]

Published

2024

42. Recent topics of spinocerebellar ataxia type 31.

Author

Ishikawa, Kinya

Subjects

*SPINOCEREBELLAR ataxia, *GENE expression, *HUMAN chromosomes, *CELL nuclei, *PROTEIN expression

Abstract

Spinocerebellar ataxia type 31 (SCA31) is an autosomal‐dominant neurodegenerative condition caused by a 2.5–3.8 kb‐long complex repeat containing (TGGAA/TTCCA)n in an intron shared by two genes called brain expressed, associated with Nedd4 (BEAN1) and thymidine kinase 2 (TK2) located in the human chromosome 16q22.1. Since BEAN1 and TK2 are transcribed in mutually opposite directions in human brains, two independently transcribed RNAs containing either (UGGAA)n or (UUCCA)n are likely to associate with the pathogenesis of SCA31. Recently, a minor TK2 mRNA isoform called TK2‐EXT was confirmed to be transcribed in human cerebellum, suggesting that (UUCCA)n is indeed expressed. The level of TK2 mRNA and TK2 protein expression levels was both preserved in SCA31 human cerebellum, suggesting that the expression of (UUCCA)n does not affect the expression of TK2, and hence, the function of TK2 seemed to be preserved. On the other hand, the other penta‐nucleotide RNA repeat (UGGAA)n, expressed through BEAN1 transcription, is likely to conform toxicity through forming abnormal RNA structures called RNA foci in the nucleus of expressing cells. In addition, three proteins TDP‐43, FUS, and hnRNPA2/B1 that commonly have a capacity to bind with (UGGAA)n reduced the number of RNA foci, and ameliorated the phenotype brought by (UGGAA)n in Drosophila. A small compound naphthyridine carbamate dimer that binds to (UGGAA)n dampened the (UGGAA)n toxicity in Drosophila, further supporting the idea that (UGGAA)n expressed by BEAN1 is pathogenic. Therefore, a plausible approach to treat SCA31 may be considered by administering agents with a capacity binding to (UGGAA)n. [ABSTRACT FROM AUTHOR]

Published

2024

43. Specific Patterns in Correlations of Super-Short Tandem Repeats (SSTRs) with G+C Content, Genic and Intergenic Regions, and Retrotransposons on All Human Chromosomes.

Author

Henn, Lukas, Sievers, Aaron, Hausmann, Michael, and Hildenbrand, Georg

Subjects

*TANDEM repeats, *MICROSATELLITE repeats, *RETROTRANSPOSONS, *GENE expression, *HUMAN chromosomes, *PSEUDOGENES, *CHLOROPLAST DNA

Abstract

The specific characteristics of k-mer words (2 ≤ k ≤ 11) regarding genomic distribution and evolutionary conservation were recently found. Among them are, in high abundance, words with a tandem repeat structure (repeat unit length of 1 bp to 3 bp). Furthermore, there seems to be a class of extremely short tandem repeats (≤12 bp), so far overlooked, that are non-random-distributed and, therefore, may play a crucial role in the functioning of the genome. In the following article, the positional distributions of these motifs we call super-short tandem repeats (SSTRs) were compared to other functional elements, like genes and retrotransposons. We found length- and sequence-dependent correlations between the local SSTR density and G+C content, and also between the density of SSTRs and genes, as well as correlations with retrotransposon density. In addition to many general interesting relations, we found that SINE Alu has a strong influence on the local SSTR density. Moreover, the observed connection of SSTR patterns to pseudogenes and -exons might imply a special role of SSTRs in gene expression. In summary, our findings support the idea of a special role and the functional relevance of SSTRs in the genome. [ABSTRACT FROM AUTHOR]

Published

2024

44. The lncRNA H19/miR-29a-3p/SNIP1/c-myc regulatory axis is involved in pulmonary fibrosis induced by Nd2O3.

Author

Bu, Ning, Wang, Shurui, Ma, Yupeng, Xia, Haibo, Zhao, Yuhang, Shi, Xuemin, Liu, Qizhan, Wang, Suhua, and Gao, Yanrong

Subjects

PULMONARY fibrosis, LINCRNA, RARE earth metals, HUMAN chromosomes, GENOMIC imprinting, GENE clusters

Abstract

Some rare earth elements are occupational and environmental toxicants and can cause organ and systemic damage; therefore, they have attracted global attention. Neodymium oxide (Nd2O3) is a rare earth element that is refined and significantly utilized in China. The long noncoding RNA (lncRNA) H19 is encoded by the H19/IGF2 imprinted gene cluster located on human chromosome 11p15.5. H19 has become a research focus due to its ectopic expression leading to the promotion of fibrosis. However, the mechanisms by which it causes pulmonary fibrosis are elusive. This investigation indicates that biologically active Nd2O3 increases H19, SNIP1, and c-myc, decreases miR-29a-3p, accelerates macrophage M2 polarization, and causes pulmonary fibrosis in mice lung tissues. In macrophage-differentiated THP-1 cells, Nd2O3 (25 μg/ml) enhanced H19, SNIP1, and c-myc, reduced miR-29a-3p, accelerated macrophages M2 polarization, and stimulated fibrogenic cytokine (TGF-β1) secretion. Furthermore, the coculturing of Nd2O3-treated macrophage-differentiated THP-1 cells. And human embryonic lung fibroblast cells activated lung fibroblast, which increases the levels of collagen I, α-SMA, p-Smad2/3, and Smad4, whereas H19 knockdown or miR-29a-3p upregulation in macrophages had opposite effects. Moreover, it was revealed that H19/miR-29a-3p/SNIP1/c-myc regulatory axis is involved in pulmonary fibrosis induced by Nd2O3. Therefore, this study provides new molecular insights into the mechanism of pulmonary fibrosis by Nd2O3. [ABSTRACT FROM AUTHOR]

Published

2024

45. Yeasty HAC Does the Trick.

Author

James, Joshua S., Ballerini, Alba, and Cai, Yizhi

Subjects

*ARTIFICIAL chromosomes, *BACTERIAL chromosomes, *CENTROMERE, *SATELLITE DNA, *SYNTHETIC biology, *HUMAN chromosomes, *GENETIC models, *NUCLEIC acids

Abstract

A recent study published in Science by researchers from the University of Pennsylvania presents a new method for efficiently creating single-copy human artificial chromosomes (HACs). HACs offer a flexible platform for delivering and maintaining large genetic payloads within human cells, with potential applications in industrial bioproduction and modeling genetic diseases. Previous methods for HAC formation relied on the capture of centromeric alpha satellite arrays, but this study proposes a new approach using yeast artificial chromosomes (YACs) with a larger starting structure. The researchers successfully formed HACs without the need for multimerization or accumulation of genomic sequences, and isolated cell lines carrying single-copy HACs. However, questions remain regarding long-term stability and the role of the inserted DNA sequence during HAC formation. This new technology, combined with recent advances in yeast DNA assembly, offers the potential for precise engineering of human artificial chromosomes carrying large, user-designed payloads. [Extracted from the article]

Published

2024

46. A supernumerary synthetic chromosome in Komagataella phaffii as a repository for extraneous genetic material.

Author

Abramczyk, Dariusz, del Carmen Sanchez Olmos, Maria, Rojas, Adan Andres Ramirez, Schindler, Daniel, Robertson, Daniel, McColm, Stephen, Marston, Adele L., and Barlow, Paul N.

Subjects

*ARTIFICIAL chromosomes, *COMPLEMENT factor H, *PROTEIN disulfide isomerase, *HOMOLOGOUS recombination, *HUMAN chromosomes, *GENETIC engineering, *CHROMOSOMES

Abstract

Background: Komagataella phaffii (Pichia pastoris) is a methylotrophic commercially important non-conventional species of yeast that grows in a fermentor to exceptionally high densities on simple media and secretes recombinant proteins efficiently. Genetic engineering strategies are being explored in this organism to facilitate cost-effective biomanufacturing. Small, stable artificial chromosomes in K. phaffii could offer unique advantages by accommodating multiple integrations of extraneous genes and their promoters without accumulating perturbations of native chromosomes or exhausting the availability of selection markers. Results: Here, we describe a linear "nano"chromosome (of 15–25 kb) that, according to whole-genome sequencing, persists in K. phaffii over many generations with a copy number per cell of one, provided non-homologous end joining is compromised (by KU70-knockout). The nanochromosome includes a copy of the centromere from K. phaffii chromosome 3, a K. phaffii-derived autonomously replicating sequence on either side of the centromere, and a pair of K. phaffii-like telomeres. It contains, within its q arm, a landing zone in which genes of interest alternate with long (approx. 1-kb) non-coding DNA chosen to facilitate homologous recombination and serve as spacers. The landing zone can be extended along the nanochromosome, in an inch-worming mode of sequential gene integrations, accompanied by recycling of just two antibiotic-resistance markers. The nanochromosome was used to express PDI, a gene encoding protein disulfide isomerase. Co-expression with PDI allowed the production, from a genomically integrated gene, of secreted murine complement factor H, a plasma protein containing 40 disulfide bonds. As further proof-of-principle, we co-expressed, from a nanochromosome, both PDI and a gene for GFP-tagged human complement factor H under the control of PAOX1 and demonstrated that the secreted protein was active as a regulator of the complement system. Conclusions: We have added K. phaffii to the list of organisms that can produce human proteins from genes carried on a stable, linear, artificial chromosome. We envisage using nanochromosomes as repositories for numerous extraneous genes, allowing intensive engineering of K. phaffii without compromising its genome or weakening the resulting strain. [ABSTRACT FROM AUTHOR]

Published

2023

47. Oat (Avena sativa L.) Sprouts Restore Skin Barrier Function by Modulating the Expression of the Epidermal Differentiation Complex in Models of Skin Irritation.

Author

Kim, Hyo-Sung, Hwang, Hyun-Jeong, Seo, Woo-Duck, and Do, Sun-Hee

Subjects

*FILAGGRIN, *GENE expression, *MITOGEN-activated protein kinases, *OATS, *HUMAN chromosomes, *GERMINATION, *SPROUTS, KERATINOCYTE differentiation

Abstract

Oats (Avena sativa L.) are used as therapeutic plants, particularly in dermatology. Despite numerous studies on their skin moisturization, anti-inflammation, and antioxidation effects, the precise molecular mechanisms of these effects are only partially understood. In this study, the efficacy of oat sprouts in the treatment of allergic contact dermatitis (ACD) was investigated, and their specific phytoconstituents and exact mechanisms of action were identified. In the in vivo ACD model, by stimulating the mitogen-activated protein kinase signaling pathway, oat sprouts increased the expression levels of proteins associated with skin barrier formation, which are produced during the differentiation of keratinocytes. In addition, in a lipopolysaccharide-induced skin irritation model using HaCaT, steroidal saponins (avenacoside B and 26-deglucoavenacoside B) and a flavonoid (isovitexin-2-o-arabinoside) of oat sprouts regulated the genetic expression of the same proteins located on the adjacent locus of human chromosomes known as the epidermal differentiation complex (EDC). Furthermore, oat sprouts showed immunomodulatory functions. These findings suggest the potential for expanding the use of oat sprouts as a treatment option for various diseases characterized by skin barrier disruption. [ABSTRACT FROM AUTHOR]

Published

2023

48. The oncogenic role of SAMMSON lncRNA in tumorigenesis: A comprehensive review with especial focus on melanoma.

Author

Ghasemian, Majid, Babaahmadi‐Rezaei, Hossein, Khedri, Azam, and Selvaraj, Chandrabose

Subjects

LINCRNA, GENE expression, NON-coding RNA, HUMAN chromosomes, METABOLIC regulation

Abstract

LncRNA Survival Associated Mitochondrial Melanoma Specific Oncogenic Non‐coding RNA (SAMMSON) is located on human chromosome 3p13, and its expression is upregulated in several tumours, including melanoma, breast cancer, glioblastoma and liver cancer and has an oncogenic role in malignancy disorders. It has been reported that SAMMSON impacts metabolic regulation, cell proliferation, apoptosis, EMT, drug resistance, invasion and migration. Also, SAMMSON is involved in regulating several pathways such as Wnt, MAPK, PI3K, Akt, ERK and p53. SAMMSON is considered a potential diagnostic and prognostic biomarker in several types of cancer and a suitable therapeutic target. In addition, the highly expressed SAMMSON is closely associated with clinicopathological features of various cancers. SAMMSON has a significant role in regulating epigenetic processes by regulating histone protein or the status of DNA methylation. Herein for the first time, we comprehensively summarized the currently available SAMMSON, molecular regulatory pathways, and clinical significance. We believe that clarifying all the molecular aspects of this lncRNA can be a good guide for cancer studies in the future. [ABSTRACT FROM AUTHOR]

Published

2023

49. Insights into the Y chromosome human diversity in Uruguay.

Author

Mut, Patricia, Bertoni, Bernardo, Sapiro, Rossana, Hidalgo, Pedro C., Torres, Alejandra, Azambuja, Carlos, and Sans, Mónica

Subjects

*Y chromosome, *HUMAN chromosomes, *HAPLOGROUPS, *GENETIC variation, *MICROSATELLITE repeats, *INDIGENOUS children, *SEX distribution

Abstract

Background: With regard to the origin of its population and microevolutionary processes, Uruguay exhibits distinctive features that distinguish it from other countries in Latin America, while at the same time sharing several similarities. In this article, we will focus on the variability of paternal genetic lineages in two geographical regions with different histories that can be considered as examples of distinct populations for the continent. In general terms, the genetic diversity is a result of different demographic processes related to the American conquest and colonisation. These resulted in distinct ancestral components which vary geographical and depend on the distribution by sex within these components. In Uruguay, native maternal haplogroups are significantly more frequent in the North. Although there are several studies about the geneticvariability of Uruguay, little is known about male genetic lineages. Aims: The aim of this work is to present an updated study of the male genetic variability of the Uruguayan population. Methods: We analyzed 13 biallelic markers and 27 STRs located in the male‐specific region of the Y chromosome for 157 males: 98 from the capital, Montevideo, and 59 from Tacuarembó. Results: Almost all haplogroups found in both locations are European (99% and 93.2% respectively). One Sub‐Saharan African haplogroup was found in Montevideo (1%) and 2 in Tacuarembó (3%), while Native haplogroups were found only in Tacuarembó, evidencing a strong sex‐biased admixture. By crossing genetic and genealogical information we could relate European haplogroups with different waves and times of migrations. Discussion: Network analysis indicated a very diverse male population, suggesting that European migrants came from heterogeneous geographic locations and in different waves. Tacuarembó has closer population affinities with Iberian populations while Montevideo is more diverse. Male population expansion expansion, can be explained by the large number of migrants that arrived during the XIX century and the first half of the XX century. Conclusions: The Uruguayan male gene pool is the result of several migration waves with diverse origins, with strong sex‐biased admixture that can be explained by the European migration, the violence against the indigenous males, and the segregation of the Africansadmixture that can be explained due to European migration, violence against Natives, and segregation against African males.admixture that can be explained due to European migration, violence against Natives, and segregation against African males.admixture that can be explained due to European migration, violence against Natives, and segregation against African males.admixture that can be explained due to European migration, violence against Natives, and segregation of hte Africans. [ABSTRACT FROM AUTHOR]

Published

2023

50. Stefin B Inhibits NLRP3 Inflammasome Activation via AMPK/mTOR Signalling.

Author

Trstenjak-Prebanda, Mojca, Biasizzo, Monika, Dolinar, Klemen, Pirkmajer, Sergej, Turk, Boris, Brault, Veronique, Herault, Yann, and Kopitar-Jerala, Nataša

Subjects

*AMP-activated protein kinases, *NLRP3 protein, *INFLAMMASOMES, *GENE expression, *HUMAN chromosomes

Abstract

Stefin B (cystatin B) is an inhibitor of lysosomal and nuclear cysteine cathepsins. The gene for stefin B is located on human chromosome 21 and its expression is upregulated in the brains of individuals with Down syndrome. Biallelic loss-of-function mutations in the stefin B gene lead to Unverricht–Lundborg disease-progressive myoclonus epilepsy type 1 (EPM1) in humans. In our past study, we demonstrated that mice lacking stefin B were significantly more sensitive to sepsis induced by lipopolysaccharide (LPS) and secreted higher levels of interleukin 1-β (IL-1β) due to increased inflammasome activation in bone marrow-derived macrophages. Here, we report lower interleukin 1-β processing and caspase-11 expression in bone marrow-derived macrophages prepared from mice that have an additional copy of the stefin B gene. Increased expression of stefin B downregulated mitochondrial reactive oxygen species (ROS) generation and lowered the NLR family pyrin domain containing 3 (NLRP3) inflammasome activation in macrophages. We determined higher AMP-activated kinase phosphorylation and downregulation of mTOR activity in stefin B trisomic macrophages—macrophages with increased stefin B expression. Our study showed that increased stefin B expression downregulated mitochondrial ROS generation and increased autophagy. The present work contributes to a better understanding of the role of stefin B in regulation of autophagy and inflammasome activation in macrophages and could help to develop new treatments. [ABSTRACT FROM AUTHOR]

Published

2023