Modulating MCM Levels Causes Differential Loading at Origins of Replication and Changes Replication Timing

Dukaj, Livio

17 December 2019

DNA replication is a highly complex part of cell metabolism that ensures safe propagation of the genome through tight regulation of the expression, localization, and activity of a large number of factors. Replication starts from distinct sites in the genome and initiation events are temporally ordered in a manner that is, on average, highly reproducible across cell populations. The specific order with which different parts of the genome are replicated has been proposed to be important to processes such as gene expression, cell differentiation, development, and genome evolution. Nevertheless, the fundamental mechanisms that are responsible for establishing these timing programs remain elusive. Unlike in higher eukaryotes, DNA replication in budding yeast initiates at sequence-specific loci called origins of replication. The timing of initiation at these loci is determined by the activation of the main replicative helicase Minichromosome Maintenance (MCM) complex. Recent results have placed MCM in a key role in establishing a replication timing program that is reproducible but arises from stochastic activation of origins, as has been observed in yeast and higher eukaryotes. One particular model posits that the loading of multiple MCMs at individual origins increases the chances that origins will be activated earlier in S phase by a limited amount of initiation factors. To further test this model, we set out to examine the consequences of modulating MCM levels in budding yeast in order to ascertain their effects on the dynamics of helicase loading during G1 and subsequent replication timing. Overexpression of MCM2-7 had no effects on cell viability, cell cycle progression, MCM abundance at origins, or replication timing. On the other hand, depletion of Mcm4, one of the six obligate components of the MCM helicase, caused reduced viability, slower progression through S phase, and increased sensitivity to replication stress. Importantly, Mcm4 depletion led to differential reduction in MCM loading at origins during G1, with low MCM origins being disproportionately affected by reduced MCM pools. Finally, reduced MCM loading at origins of replication led to delayed replication during S phase. Our data support a model where the loading activity of origins, controlled by their ability to recruit ORC and compete for MCMs, determines the number of helicases loaded, which in turn has strong implications for replication timing.

Minichromosome Maintenance Complex

Origin of Replication

Biochemistry

Cancer Biology

Molecular Biology

Statistical tests of complementary palindromes: An application of searching virus origin of replication

Chen, Chun-Lin

19 July 2009

The human cytomegalovirus (CMV) is one of the viruses which extensively infect in the world. In order to grow and reproduce, the CMV invades designated cellular lives and influences their behavior. The origin of replication (also called the replication origin) is a particular sequence in the CMV DNA genome at which replication is initiated. In this study, we develop some statistical tests of complementary palindromes, which can be applied to narrow the search for replication origin of the CMV DNA sequence. Let X_(2k) be the number of complementary palindromes with length 2k and Y_(2k) be the number of non-covered complementary palindromes with length 2k inside a given DNA sequence. Consider the null hypothesis that the marginal probabilities of the four nucleotides remain the same (1/4) over the given sequence versus the alternative hypothesis that the marginal probabilities are different. The likelihood ratio test based on the joint distributions of Y_(18) and Y_(2k) | (Y_(2(k+1)), ...,Y_(18)), where k=1, ..., 8, under the null and the alternative hypotheses are derived. The null distribution of the test statistic is approximated by a scaled chi-squared distribution. The scale parameter and the degree of freedom are estimated by the method of moments. The Pearson's chi-squared test based on the marginal distributions of X_(2k), where k=1, ..., 9. The null distribution of the test statistic is also approximated by a scaled chi-squared distribution. There is an another focus about ratios statistics X_(2k)/X_(2(k+1)) and Y_(2k)/Y_(2(k+1)), which approximate a specific value under the null hypotheses. Simulation studies are performed to confirm the theoretical findings.

Pearson's chi-squared test

likelihood ratio test

human cytomegalovirus

origin of replication

complementary palindromes

Ανάπτυξη εργαλείων βιοπληροφορικής για πρόβλεψη της πιθανότητας έναρξης της αντιγραφής του DNA σαν συνάρτηση της γονιδιωματικής περιοχής / Development of bioinformatics tools towards the prediction of DNA replication initiation as a function of the genomic region.

Λέγουρας, Ιωάννης

22 November 2011

Η χρήση της βιοπληροφορικής σε βιολογικά δεδομένα υψηλής απόδοσης είναι μια πολλά υποσχόμενη προσέγγιση για τη δημιουργία νέα γνώσης. Στην παρούσα εργασία αναλύεται ένα σύνολο δεδομένων που αφορά στα σημεία έναρξης της αντιγραφής (αφετηρίες) στο ζυμομύκητα Schizosaccharomyces pombe, όπως αναγνωρίστηκαν από πειράματα μικροσυστοιχιών που κάλυπταν όλο το μήκος του γονιδιώματος του οργανισμού (full genome). Οι αντιγραφή ξεκινάει από μεγάλο αριθμό αφετηριών οι οποίες βρίσκονται διάσπαρτες σε όλο το γονιδίωμα και μέχρι τώρα οι περισσότερες μελέτες των χαρακτηριστικών των αφετηρίων είχαν πραγματοποιηθεί για περιορισμένο αριθμό αυτών. Στην εργασία αυτή αναλύονται για πρώτη φορά τα χαρακτηριστικά του συνόλου των αφετηριών του S. pombe με σκοπό να διαπιστωθεί ποια χαρακτηριστικά καθορίζουν πότε μια περιοχή του γονιδιώματος μπορεί να δράσει ως αφετηρία αντιγραφής. Από την ανάλυση αυτή προκύπτει ότι: 1. Οι αφετηρίες έχουν υψηλότερο μέγιστο περιεχόμενο ΑΤ από άλλες γονιδιωματικές περιοχές. 2. Οι αφετηρίες εντοπίζονται κατά προτίμηση σε μεγάλες διαγονιδιακές περιοχές ανάμεσα σε αποκλίνουσες μεταγραφικές μονάδες. 3. Η ασυμμετρία κατανομής Α και Τ ενδέχεται να αποτελεί δείκτη των αφετηριών. 4. Η απόδοση έχει συσχέτιση με το περιεχόμενο ΑΤ. / Use of Bioinformatics in high-throughput biological data is a promising approach for creation of new knowledge. In this work we analyze a dataset that concerns origins of DNA replication initiation in the yeast Schizosaccharomyces pombe, that were identified through full genome microarray experiments. DNA replication starts from a large number of origins that span the entire genome and until recently most studies of origins of replication have been carried out only for a limited number of them. Here we analyze for the first time the properties of the entire dataset of origins of replication in S. pombe in order to find out which specific properties define which genomic location can function as an origin of replication. From this analysis we found that: 1. Origins of replication have higher maximum AT (adenine-thymine) content than other genomic locations. 2. Origins of replication are found preferentially in large genomic locations between divergent transcriptional units. 3. AT asymmetry might be a marker of origins of replication. 4. The origin of replication firing efficiency is correlated with AT content.

Ζυμομύκητες

Αντιγραφή του DNA

Αφετηρίες αντιγραφής

572.864 5

Fission yeasts

Schizosaccharomyces pombe

DNA replication

Origin of replication

Modulação de Orc1/Cdc6 de Trypanosoma brucei pela ligação e hidrólise de ATP. / Modulation of Trypanosoma brucei Orc1/Cdc6 by ATP binding and hydrolysis.

Soares, Daiane da Rocha

16 April 2014

O Complexo de pré-replicação em T.brucei é composto por Orc1/Cdc6 e as helicases MCMs. Em um trabalho anterior mostramos que TbOrc1/Cdc6 pode ligar e hidrolisar ATP in vitro. Neste sentido, o objetivo deste trabalho é avaliar a importância da hidrólise e ligação de ATP para a formação e estabilidade do complexo pré-replicação de T.brucei. Para tanto, foram geradas proteínas recombinantes Orc1/Cdc6 de T. brucei mutadas nas regiões Walker A (TbOrc1/Cdc6K79T) ou sensor 2 (TbOrc1/Cdc6R251,252E) incapazes de ligar ou hidrolisar ATP, respectivamente. Finalmente, as células expressando TbOrc1/Cdc6K79T ou TbOrc1/Cdc6R251,252E foram avaliadas quanto a (i ) estabilidade da interação Orc1/Cdc6 -DNA, (ii) capacidade de estabilizar MCM no DNA, (iii) capacidade de replicar seu DNA. A mutação na região sensor 2 de T.brucei (TbOrc1/Cdc6R251,252E) reduziu drasticamente a atividade de ATPase em comparação com a proteína selvagem . TbOrc1/Cdc6 mutado no sitio de ligação ao ATP perdeu a capacidade de interagir com o ATP (TbOrc1/Cdc6K79T). A super expressão desses genes inibiu de forma significativa a proliferação celular, causou ineficiência no carregamento de MCM para o DNA e ocasionou falhas na progressão do ciclo celular, atrasando a fase S. / The pre-replication complex in T.brucei is composed of at Orc1/Cdc6 and MCMs helicases. In a previous paper we showed that TbOrc1/Cdc6 can bind and hydrolyze ATP in vitro. Based on that, the objective of this study is to evaluate the importance of ATP binding and hydrolysis to the formation and stability of the pre - replication complex in T.brucei. For this purpose, T. brucei Orc1/Cdc6 recombinant proteins were generated mutated at regions on Walker A (TbOrc1/Cdc6K79T) and sensor 2 (TbOrc1/Cdc6R251 , 252E) in order to unable the ATP binding and hydrolyzation respectively . Finally , cells expressing TbOrc1/Cdc6K79T or TbOrc1/Cdc6R251 , 252E were evaluated for (i) stability of Orc1/Cdc6 - DNA interaction , (ii) ability to stabilize MCM in DNA , (iii) ability to replicate its DNA . The mutation in the sensor 2 region of T.brucei (TbOrc1/Cdc6R251 , 252E) drastically reduced the ATPase activity compared to the wild-type protein. TbOrc1/Cdc6 mutated in the ATP binding site has lost the ability to interact with ATP (TbOrc1/Cdc6K79T). The overexpression of these genes significantly inhibited cell proliferation causing inefficient loading of MCM DNA and led to failure in cell cycle progression by delaying the phase S.

T. brucei

T. brucei

ATP

ATP

ATPase

ATPase

DNA

DNA

DNA replication

Origem de replicação

Origin of replication

Replicação do DNA

Modulação de Orc1/Cdc6 de Trypanosoma brucei pela ligação e hidrólise de ATP. / Modulation of Trypanosoma brucei Orc1/Cdc6 by ATP binding and hydrolysis.

Daiane da Rocha Soares

16 April 2014

O Complexo de pré-replicação em T.brucei é composto por Orc1/Cdc6 e as helicases MCMs. Em um trabalho anterior mostramos que TbOrc1/Cdc6 pode ligar e hidrolisar ATP in vitro. Neste sentido, o objetivo deste trabalho é avaliar a importância da hidrólise e ligação de ATP para a formação e estabilidade do complexo pré-replicação de T.brucei. Para tanto, foram geradas proteínas recombinantes Orc1/Cdc6 de T. brucei mutadas nas regiões Walker A (TbOrc1/Cdc6K79T) ou sensor 2 (TbOrc1/Cdc6R251,252E) incapazes de ligar ou hidrolisar ATP, respectivamente. Finalmente, as células expressando TbOrc1/Cdc6K79T ou TbOrc1/Cdc6R251,252E foram avaliadas quanto a (i ) estabilidade da interação Orc1/Cdc6 -DNA, (ii) capacidade de estabilizar MCM no DNA, (iii) capacidade de replicar seu DNA. A mutação na região sensor 2 de T.brucei (TbOrc1/Cdc6R251,252E) reduziu drasticamente a atividade de ATPase em comparação com a proteína selvagem . TbOrc1/Cdc6 mutado no sitio de ligação ao ATP perdeu a capacidade de interagir com o ATP (TbOrc1/Cdc6K79T). A super expressão desses genes inibiu de forma significativa a proliferação celular, causou ineficiência no carregamento de MCM para o DNA e ocasionou falhas na progressão do ciclo celular, atrasando a fase S. / The pre-replication complex in T.brucei is composed of at Orc1/Cdc6 and MCMs helicases. In a previous paper we showed that TbOrc1/Cdc6 can bind and hydrolyze ATP in vitro. Based on that, the objective of this study is to evaluate the importance of ATP binding and hydrolysis to the formation and stability of the pre - replication complex in T.brucei. For this purpose, T. brucei Orc1/Cdc6 recombinant proteins were generated mutated at regions on Walker A (TbOrc1/Cdc6K79T) and sensor 2 (TbOrc1/Cdc6R251 , 252E) in order to unable the ATP binding and hydrolyzation respectively . Finally , cells expressing TbOrc1/Cdc6K79T or TbOrc1/Cdc6R251 , 252E were evaluated for (i) stability of Orc1/Cdc6 - DNA interaction , (ii) ability to stabilize MCM in DNA , (iii) ability to replicate its DNA . The mutation in the sensor 2 region of T.brucei (TbOrc1/Cdc6R251 , 252E) drastically reduced the ATPase activity compared to the wild-type protein. TbOrc1/Cdc6 mutated in the ATP binding site has lost the ability to interact with ATP (TbOrc1/Cdc6K79T). The overexpression of these genes significantly inhibited cell proliferation causing inefficient loading of MCM DNA and led to failure in cell cycle progression by delaying the phase S.

T. brucei

ATP

ATPase

DNA

Origem de replicação

Replicação do DNA

T. brucei

ATP

ATPase

DNA

DNA replication

Origin of replication

Spatial Patterns of Molecular Traits in Bacterial Genomes / Bacterial Molecular Properties and Genomic Position

Lato, Daniella Fiora

January 2021

The placement of genetic information within bacterial genomes is intentionally organized, creates predictable gradients of molecular properties along the origin-terminus of replication axis. Previous studies have reported that genes located near the origin of replication generally have a higher expression level, increased dosage, and are more conserved than genes located near the terminus of replication. Additionally, substitution rates usually increases with increasing distance from the origin of replication. However, the constant reorganization of genetic information is often overlooked when considering spatial molecular trends. Here, we explore the interplay of genomic reorganization along the origin and terminus of replication axis of gene expression and substitutions in Escherichia coli, Bacillus subtilis, Streptomyces, and Sinorhizobium meliloti. Using ancestral reconstruction to account for genome reorganization, we demonstrated that the correlation between the number of substitutions and distance from the origin of replication is significant but small and inconsistent in direction. In another study, we looked at the overall expression levels of all genes from the same bacteria, and confirmed that gene expression tends to decrease when moving away from the origin of replication. We looked specifically at how inversions - one type of genomic reorganization - impact gene expression between closely related strains of E. coli. Some inversions cause significant differences in gene expression compared to non-inverted regions, however, the variation in expression does not significantly differ between inverted and non-inverted regions. This change in gene expression may be due to the expression regulation properties of two nucleoid proteins, Histone-like Nucleoid-Structuring (H-NS) and Factor for inversion stimulation (Fis), who’s binding sites had a significant positive correlation with inverted regions. In conclusion, we highlight the impact that genomic rearrangements and location have on molecular trends in bacteria, illustrating the importance of considering spatial trends in molecular evolutionary analysis, and to ensure accurate generalization of previously determined trends. Assuming that molecular trends are exclusively in one direction can be problematic. / Dissertation / Doctor of Philosophy (PhD)

Genomic Location

Gene Expression

Origin of Replication

Terminus of Replication

Bacteria

Genomics

Molecular Evolution

Substitutions

Substitution Rate

Genomic Structure

Inversion

RNA-seq

H-NS Protein

Fis Protein

Ancestral Reconstruction

Stabil och antibiotikafri läkemedelsproduktion i rekombinant Escherichia coli

Benevides, Kristina, Broström, Oscar, Elison Kalman, Grim, Swenson, Hugo, Vlassov, Andrei, Ågren, Josefin

January 2017

Den här rapporten presenterar ett antibiotikafritt, stabilt och kromosombaserat expressionssystem för läkemedelsproduktion i Escherichia coli på beställning av företaget Affibody AB. E. coli-stammen BL21(DE3) valdes som värdorganism för expressionssystemet. Systemet består av en genkassett som innehåller en T7-promotor, en 5′-UTR från genen ompA och en terminatorsekvens från RNA-operonet rrnB. Fyra kopior av genkassetten ska integreras i pseudogenerna caiB, yjjM, hsdS och yjiV. En datormodell som modellerar det egentliga kopietalet i cellerna har skapats i mjukvaran MATLAB, vilket visar att det uppskattas vara maximalt 32 kopior av genkassetten per cell på grund av replikation av kromosomen. Ett högt pH i fermentorn; att använda fed-batch och blandade kolhydratkällor; och att använda stammen BL21(DE3) minskar acetatproduktionen i cellen. En lägre acetatproduktion kan leda till en högre produkthalt. En proteinutbytesmodell för mjukvaran MATLAB har konstruerats för att uppskatta koncentrationen av Affibody®-molekylen i en E. coli cell.

copynumber

copy-number

copy

number

origin of replication

rekombinant

proteinexpression

läkemedel

E. coli

antibiotikafri

antibiotika

expressionssystem

expression

system

escherichia coli

kromosom

kromosombaserad

kromosomal

plasmidfri

plasmid

T7-promotor

T7

promotor

ompA

rrnB

autoinduktion

auto

induktion

matlab

kopietalmodell

utbytemodell

stabil

pH

pseudogen

pseudo

gen

caiB

yjjM

hsdS

yjiV

fermentor

batch

fed-batch

kontinuerlig

fed

batch

fermentation

Affibody

affibody-molekyl

affibody-molekyler

affibodymolekyl

affibodymolekyler

bioreaktor

acetat

acetatbildning

acetatproduktion

acetatreduktion

acetatreducering

peptidläkemedel

peptider

peptid

T7-system

operator

lac-operator

operon

5'-UTR

3'-UTR

sekundärstruktur

mRNA

T1

T2

terminator

termineringssekvens

optimering

lac-operon

repressor

inducering

BL21(DE3)

BL21

B-stam

B

stam

modell

kopietal

kopie

tal

OriC

Pharmaceutical Biotechnology

Läkemedelsbioteknik