Pages that link to "Q34613070"

The following pages link to The activation of a neocentromere in Drosophila requires proximity to an endogenous centromere (Q34613070):

Displaying 50 items.

• Centromeric chromatin exhibits a histone modification pattern that is distinct from both euchromatin and heterochromatin (Q24537593) (← links)
• Differential regulation of strand-specific transcripts from Arabidopsis centromeric satellite repeats (Q24813550) (← links)
• Atypical centromeres in plants-what they can tell us (Q26866535) (← links)
• Neocentromeres and epigenetically inherited features of centromeres (Q27024297) (← links)
• Neocentromeres Provide Chromosome Segregation Accuracy and Centromere Clustering to Multiple Loci along a Candida albicans Chromosome (Q28554334) (← links)
• Plasticity of fission yeast CENP-A chromatin driven by relative levels of histone H3 and H4. (Q33293168) (← links)
• Neocentromeres form efficiently at multiple possible loci in Candida albicans. (Q33415450) (← links)
• Neocentromeres come of age. (Q33415452) (← links)
• Identification of a maize neocentromere in an oat-maize addition line. (Q33620280) (← links)
• Human centromere repositioning "in progress" (Q33695623) (← links)
• A paucity of heterochromatin at functional human neocentromeres (Q33751932) (← links)
• Stable barley chromosomes without centromeric repeats. (Q33896049) (← links)
• Centromere renewal and replacement in the plant kingdom (Q33920206) (← links)
• Centromere identity: a challenge to be faced. (Q34123197) (← links)
• Neocentromeres: role in human disease, evolution, and centromere study (Q34146174) (← links)
• Chromosome engineering allows the efficient isolation of vertebrate neocentromeres. (Q34333350) (← links)
• Retrotransposon accumulation and satellite amplification mediated by segmental duplication facilitate centromere expansion in rice (Q34338870) (← links)
• Sequence analysis of a functional Drosophila centromere (Q34373643) (← links)
• Neocentromeres: a place for everything and everything in its place (Q34392191) (← links)
• Human centromeric chromatin is a dynamic chromosomal domain that can spread over noncentromeric DNA (Q34573024) (← links)
• The Y chromosome of Drosophila melanogaster exhibits chromosome-wide imprinting (Q34616484) (← links)
• Ectopic centromere nucleation by CENP--a in fission yeast (Q34636199) (← links)
• Epigenetic centromere propagation and the nature of CENP-a nucleosomes. (Q34700376) (← links)
• Neocentromeres: new insights into centromere structure, disease development, and karyotype evolution (Q34746589) (← links)
• Telomeric repeats facilitate CENP-A(Cnp1) incorporation via telomere binding proteins (Q34920830) (← links)
• Formation of functional centromeric chromatin is specified epigenetically in Candida albicans (Q35075530) (← links)
• Mislocalization of the Drosophila centromere-specific histone CID promotes formation of functional ectopic kinetochores (Q35335808) (← links)
• What do you mean, "epigenetic"? (Q35342673) (← links)
• Centromere sliding on a mammalian chromosome (Q35657166) (← links)
• A minimal CENP-A core is required for nucleation and maintenance of a functional human centromere (Q35672027) (← links)
• Structure and Stability of Telocentric Chromosomes in Wheat (Q35779620) (← links)
• Genetics: polymorphisms, epigenetics, and something in between. (Q35910018) (← links)
• Flexibility of centromere and kinetochore structures (Q35923278) (← links)
• Control of gene expression and assembly of chromosomal subdomains by chromatin regulators with antagonistic functions (Q36192038) (← links)
• Centromere identity in Drosophila is not determined in vivo by replication timing (Q36377636) (← links)
• Inactivation of a human kinetochore by specific targeting of chromatin modifiers (Q36558145) (← links)
• Epigenetic regulation of centromeric chromatin: old dogs, new tricks? (Q36981211) (← links)
• A tale of two centromeres--diversity of structure but conservation of function in plants and animals (Q37350780) (← links)
• Maize centromeres expand and adopt a uniform size in the genetic background of oat. (Q37420321) (← links)
• Transcription and ncRNAs: at the cent(rome)re of kinetochore assembly and maintenance (Q38159962) (← links)
• Conserved organization of centromeric chromatin in flies and humans (Q38692366) (← links)
• Heterochromatin boundaries are hotspots for de novo kinetochore formation (Q39521875) (← links)
• Genomic size of CENP-A domain is proportional to total alpha satellite array size at human centromeres and expands in cancer cells (Q39560198) (← links)
• Chromosome size and origin as determinants of the level of CENP-A incorporation into human centromeres. (Q40460199) (← links)
• The paracentric inversion In(2Rh)PL alters the centromeric organization of chromosome 2 in Drosophila melanogaster. (Q46838938) (← links)
• Simple and Complex Centromeric Satellites in Drosophila Sibling Species (Q47228653) (← links)
• Loading of Arabidopsis centromeric histone CENH3 occurs mainly during G2 and requires the presence of the histone fold domain. (Q48084233) (← links)
• Centromeric retroelements and satellites interact with maize kinetochore protein CENH3. (Q48275085) (← links)
• Human centromere repositioning within euchromatin after partial chromosome deletion (Q50315563) (← links)
• Unstable transmission of rice chromosomes without functional centromeric repeats in asexual propagation. (Q53370843) (← links)