Nancy Kleckner | Academic Influence

Nancy Kleckner's AcademicInfluence.com Rankings

Nancy Kleckner

Biology

#1559

World Rank

#2576

Historical Rank

#767

USA Rank

Molecular Biology

#232

World Rank

#236

Historical Rank

#100

USA Rank

Genetics

#212

World Rank

#257

Historical Rank

#111

USA Rank

Biochemistry

#523

World Rank

#611

Historical Rank

#178

USA Rank

biology Degrees

Download Badge

Biology

Nancy Kleckner's Degrees

Bachelors Biology University of California, Berkeley

Similar Degrees You Can Earn

Best Online Bachelor's in Biology 2025

Why Is Nancy Kleckner Influential?

(Suggest an Edit or Addition)

According to Wikipedia, Nancy Kleckner is the Herchel Smith Professor of Molecular Biology at Harvard University and principal investigator at the Kleckner Laboratory at Harvard University. Education Nancy Kleckner worked with Matt Meselson as an undergraduate at Harvard University, earning her degree in 1968. She then moved on to do her PhD at Massachusetts Institute of Technology working with Ethan Signer on the genetics of lambda phage and DNA replication. She did a postdoc under David Botstein at Princeton University in 1974.

(See a Problem?)

Nancy Kleckner's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Capturing Chromosome Conformation (2002) (3324)
Meiosis-Specific DNA Double-Strand Breaks Are Catalyzed by Spo11, a Member of a Widely Conserved Protein Family (1997) (1689)
Improved single and multicopy lac-based cloning vectors for protein and operon fusions. (1987) (1605)
Meiotic chromosomes: integrating structure and function. (1999) (1224)
DMC1: A meiosis-specific yeast homolog of E. coli recA required for recombination, synaptonemal complex formation, and cell cycle progression (1992) (1096)
A Method for Gene Disruption That Allows Repeated Use of URA3 Selection in the Construction of Multiply Disrupted Yeast Strains (1987) (906)
Transposable elements in prokaryotes. (1981) (685)
A pathway for generation and processing of double-strand breaks during meiotic recombination in S. cerevisiae (1990) (670)
The Single-End Invasion An Asymmetric Intermediate at the Double-Strand Break to Double-Holliday Junction Transition of Meiotic Recombination (2001) (661)
Crossover/Noncrossover Differentiation, Synaptonemal Complex Formation, and Regulatory Surveillance at the Leptotene/Zygotene Transition of Meiosis (2004) (657)
New Tn10 derivatives for transposon mutagenesis and for construction of lacZ operon fusions by transposition. (1984) (601)
Analysis of wild-type and rad50 mutants of yeast suggests an intimate relationship between meiotic chromosome synapsis and recombination (1990) (577)
Recombination, Pairing, and Synapsis of Homologs during Meiosis. (2015) (545)
Genetic engineering in vivo using translocatable drug-resistance elements. New methods in bacterial genetics. (1977) (543)
The leptotene-zygotene transition of meiosis. (1998) (538)
SeqA: A negative modulator of replication initiation in E. coli (1994) (497)
Identification of double holliday junctions as intermediates in meiotic recombination (1995) (479)
Interhomolog Bias during Meiotic Recombination: Meiotic Functions Promote a Highly Differentiated Interhomolog-Only Pathway (1997) (478)
ATR Homolog Mec1 Promotes Fork Progression, Thus Averting Breaks in Replication Slow Zones (2002) (471)
E. coli oriC and the dnaA gene promoter are sequestered from dam methyltransferase following the passage of the chromosomal replication fork (1990) (448)
Uses of transposons with emphasis on Tn10. (1991) (441)
Temporal comparison of recombination and synaptonemal complex formation during meiosis in S. cerevisiae (1991) (437)
Meiosis: how could it work? (1996) (432)
Cohesins Bind to Preferential Sites along Yeast Chromosome III, with Differential Regulation along Arms versus the Centric Region (1999) (422)
Chromosome pairing via multiple interstitial interactions before and during meiosis in yeast (1994) (379)
Identification of joint molecules that form frequently between homologs but rarely between sister chromatids during yeast meiosis (1994) (370)
NDT80, a meiosis-specific gene required for exit from pachytene in Saccharomyces cerevisiae (1995) (335)
IS10 transposition is regulated by DNA adenine methylation (1985) (334)
Physical and Functional Interactions among Basic Chromosome Organizational Features Govern Early Steps of Meiotic Chiasma Formation (2002) (331)
Chromosome and Replisome Dynamics in E. coli: Loss of Sister Cohesion Triggers Global Chromosome Movement and Mediates Chromosome Segregation (2005) (321)
Translocatable elements in procaryotes (1977) (303)
A mechanical basis for chromosome function. (2004) (302)
Functional specificity of MutL homologs in yeast: evidence for three Mlh1-based heterocomplexes with distinct roles during meiosis in recombination and mismatch correction. (1999) (301)
Mutagenesis by insertion of a drug-resistance element carrying an inverted repetition. (1975) (296)
Translational control of IS10 transposition (1983) (292)
E. coli SeqA protein binds oriC in two different methyl-modulated reactions appropriate to its roles in DNA replication initiation and origin sequestration (1995) (282)
The ATRs, ATMs, and TORs Are Giant HEAT Repeat Proteins (2003) (276)
Chiasma formation: chromatin/axis interplay and the role(s) of the synaptonemal complex (2006) (274)
The SUMO-1 isopeptidase Smt4 is linked to centromeric cohesion through SUMO-1 modification of DNA topoisomerase II. (2002) (262)
Four-Dimensional Imaging of E. coli Nucleoid Organization and Dynamics in Living Cells (2013) (237)
Sister Cohesion and Structural Axis Components Mediate Homolog Bias of Meiotic Recombination (2010) (237)
Meiotic cells monitor the status of the interhomolog recombination complex. (1997) (233)
Progression of meiotic DNA replication is modulated by interchromosomal interaction proteins, negatively by Spo11p and positively by Rec8p. (2000) (226)
Double Holliday Junctions are Intermediates of DNA Break Repair (2010) (219)
Covalent protein-DNA complexes at the 5' strand termini of meiosis-specific double-strand breaks in yeast. (1995) (216)
Meiotic Chromosomes Move by Linkage to Dynamic Actin Cables with Transduction of Force through the Nuclear Envelope (2008) (201)
A general method for identifying recessive diploid-specific mutations in Saccharomyces cerevisiae, its application to the isolation of mutants blocked at intermediate stages of meiotic prophase and characterization of a new gene SAE2. (1997) (200)
Saccharomyces cerevisiae recA homologues RAD51 and DMC1 have both distinct and overlapping roles in meiotic recombination (1997) (196)
Coordinating DNA replication initiation with cell growth: differential roles for DnaA and SeqA proteins. (1996) (195)
Tn10 Transposition via a DNA Hairpin Intermediate (1998) (186)
Three Tn10-associated excision events: Relationship to transposition and role of direct and inverted repeats (1981) (185)
Properties of the translocatable tetracycline-resistance element Tn10 in Escherichia coli and bacteriophage lambda. (1978) (183)
Genetic organization of transposon Tn10 (1981) (178)
Structural relationship of bacterial RecA proteins to recombination proteins from bacteriophage T4 and yeast. (1993) (168)
Synaptonemal complex (SC) component Zip1 plays a role in meiotic recombination independent of SC polymerization along the chromosomes. (1996) (167)
Biological regulation by antisense RNA in prokaryotes. (1988) (164)
Dynamic chromosome movements during meiosis: a way to eliminate unwanted connections? (2009) (156)
A symmetrical six-base-pair target site sequence determines Tn10 insertion specificity (1982) (152)
Potential advantages of unstable interactions for pairing of chromosomes in meiotic, somatic, and premeiotic cells. (1993) (149)
Sequence non‐specific double‐strand breaks and interhomolog interactions prior to double‐strand break formation at a meiotic recombination hot spot in yeast. (1995) (149)
Topoisomerase II mediates meiotic crossover interference (2014) (144)
Meiotic double-strand breaks at the interface of chromosome movement, chromosome remodeling, and reductional division. (2003) (135)
Yeast Pch2 promotes domainal axis organization, timely recombination progression, and arrest of defective recombinosomes during meiosis (2008) (135)
RAD50 protein of S.cerevisiae exhibits ATP-dependent DNA binding. (1993) (130)
Coordinate variation in meiotic pachytene SC length and total crossover/chiasma frequency under conditions of constant DNA length. (2003) (128)
Localization and roles of Ski8p protein in Sordaria meiosis and delineation of three mechanistically distinct steps of meiotic homolog juxtaposition (2003) (127)
Tn10 transposase acts preferentially on nearby transposon ends in vivo (1983) (127)
The yeast RAD50 gene encodes a predicted 153-kD protein containing a purine nucleotide-binding domain and two large heptad-repeat regions. (1989) (127)
Recombination Proteins Mediate Meiotic Spatial Chromosome Organization and Pairing (2010) (126)
Three promoters near the termini of IS10: pIN, pOUT, and pIII (1983) (124)
Tn10 transposition and circle formation in vitro (1987) (117)
Inversions and deletions of the Salmonella chromosome generated by the translocatable tetracycline resistance element Tn10. (1979) (117)
Csm4, in Collaboration with Ndj1, Mediates Telomere-Led Chromosome Dynamics and Recombination during Yeast Meiosis (2008) (114)
Meiotic double-strand breaks occur once per pair of (sister) chromatids and, via Mec1/ATR and Tel1/ATM, once per quartet of chromatids (2011) (113)
Crossover Patterning by the Beam-Film Model: Analysis and Implications (2014) (113)
Molecular cloning and characterization of the pgm gene encoding phosphoglucomutase of Escherichia coli (1994) (113)
Interrogating the Escherichia coli cell cycle by cell dimension perturbations (2016) (112)
Meiotic crossover patterns: Obligatory crossover, interference and homeostasis in a single process (2015) (111)
IHF Modulation of Tn10 Transposition: Sensory Transduction of Supercoiling Status via a Proposed Protein/DNA Molecular Spring (1998) (111)
PR65, the HEAT-repeat scaffold of phosphatase PP2A, is an elastic connector that links force and catalysis (2010) (110)
Escherichia coli sister chromosome separation includes an abrupt global transition with concomitant release of late-splitting intersister snaps (2011) (110)
Tn10 and IS10 transposition and chromosome rearrangements: mechanism and regulation in vivo and in vitro. (1996) (108)
A few of our favorite things: Pairing, the bouquet, crossover interference and evolution of meiosis. (2016) (107)
The logic and mechanism of homologous recombination partner choice. (2013) (106)
Somatic pairing of homologs in budding yeast: existence and modulation. (1999) (105)
Inefficient Crossover Maturation Underlies Elevated Aneuploidy in Human Female Meiosis (2017) (104)
Identification and characterization of a pre‐cleavage synaptic complex that is an early intermediate in Tn10 transposition. (1995) (103)
DNA sequence organization of IS10-right of Tn10 and comparison with IS10-left. (1982) (100)
Chromosomes Progress to Metaphase in Multiple Discrete Steps via Global Compaction/Expansion Cycles (2015) (99)
Genetic evidence that Tn10 transposes by a nonreplicative mechanism (1986) (96)
The Three Chemical Steps of Tn10/IS10 Transposition Involve Repeated Utilization of a Single Active Site (1996) (95)
Insertion sequence IS10 anti-sense pairing initiates by an interaction between the 5' end of the target RNA and a loop in the anti-sense RNA. (1989) (94)
Crossover and noncrossover recombination during meiosis: timing and pathway relationships. (1995) (92)
Collisions between yeast chromosomal loci in vivo are governed by three layers of organization. (1999) (92)
A Tn10-lacZ-kanR-URA3 gene fusion transposon for insertion mutagenesis and fusion analysis of yeast and bacterial genes. (1987) (88)
Tn10/IS10 transposase purification, activation, and in vitro reaction. (1994) (87)
Mutational analysis of IS10′s outside end. (1989) (86)
Tn10 insertion specificity is strongly dependent upon sequences immediately adjacent to the target-site consensus sequence. (1992) (84)
The bacterial nucleoid: nature, dynamics and sister segregation. (2014) (83)
Meiotic chromosome metabolism: one view. (1991) (82)
The challenge of evolving stable polyploidy: could an increase in “crossover interference distance” play a central role? (2016) (82)
IS10 transposase mutations that specifically alter target site recognition. (1992) (81)
Mismatch repair mutations of Escherichia coli K12 enhance transposon excision. (1985) (81)
Bioinformatic analyses implicate the collaborating meiotic crossover/chiasma proteins Zip2, Zip3, and Spo22/Zip4 in ubiquitin labeling. (2005) (80)
γ-H2AX illuminates meiosis (2001) (78)
Single molecule detection of direct, homologous, DNA/DNA pairing (2009) (74)
Physical structures of Tn10-promoted deletions and inversions: Role of 1400 bp inverted repetitions (1979) (74)
The structure of DNA overstretched from the 5′5′ ends differs from the structure of DNA overstretched from the 3′3′ ends (2009) (74)
Intramolecular transposition by Tn10 (1989) (72)
A specific class of IS10 transposase mutants are blocked for target site interactions and promote formation of an excised transposon fragment (1989) (72)
Effects of purified SeqA protein on oriC‐dependent DNA replication in vitro (1998) (71)
Regulation of transposition in bacteria. (1990) (71)
Direct recognition of homology between double helices of DNA in Neurospora crassa (2014) (69)
DNA sequence analysis of Tn10 insertions: Origin and role of 9 bp flanking repetitions during Tn10 translocation (1979) (68)
Communication between homologous chromosomes: genetic alterations at a nuclease‐hypersensitive site can alter mitotic chromatin structure at that site both in cis and in trans (1996) (68)
Unusual alleles of recB and recC stimulate excision of inverted repeat transposons Tn10 and Tn5. (1984) (67)
E3 ligase Hei10: a multifaceted structure-based signaling molecule with roles within and beyond meiosis (2014) (67)
Tn10 protects itself at two levels from fortuitous activation by external promoters (1985) (66)
Transposase promotes double strand breaks and single strand joints at Tn10 termini in vivo (1984) (63)
Coupling meiotic chromosome axis integrity to recombination. (2008) (63)
GCN5-dependent histone H3 acetylation and RPD3-dependent histone H4 deacetylation have distinct, opposing effects on IME2 transcription, during meiosis and during vegetative growth, in budding yeast. (1999) (61)
The Escherichia coli baby cell column: a novel cell synchronization method provides new insight into the bacterial cell cycle (2005) (61)
Kinetic and structural analysis of a cleaved donor intermediate and a strand transfer intermediate in Tn10 transposition (1991) (60)
Specificity of insertion by the translocatable tetracycline-resistance element Tn10. (1979) (60)
Meiotic recombination-related DNA synthesis and its implications for cross-over and non-cross-over recombinant formation (2007) (59)
The Tn10 Synaptic Complex Can Capture a Target DNA only after Transposon Excision (1997) (58)
Mutations in Saccharomyces cerevisiae that block meiotic prophase chromosome metabolism and confer cell cycle arrest at pachytene identify two new meiosis-specific genes SAE1 and SAE3. (1997) (57)
The unusual stability of the IS10 anti‐sense RNA is critical for its function and is determined by the structure of its stem‐domain. (1989) (57)
Nearly precise excision: a new type of DNA alteration associated with the translocatable element Tn10 (1979) (55)
IS10/Tn10 transposition efficiently accommodates diverse transposon end configurations. (1996) (54)
General quantitative relations linking cell growth and the cell cycle in Escherichia coli (2020) (50)
Negative and positive regulation of Tn10/IS10-promoted recombination by IHF: two distinguishable processes inhibit transposition off of multicopy plasmid replicons and activate chromosomal events that favor evolution of new transposons. (1995) (50)
Meiotic prophase roles of Rec8 in crossover recombination and chromosome structure (2016) (49)
Excision of Tn10 from the donor site during transposition occurs by flush double-strand cleavages at the transposon termini. (1992) (47)
A new generalizable test for detection of mutations affecting Tn10 transposition. (1987) (47)
Physical analysis of Tn10- and IS10-promoted transpositions and rearrangements. (1987) (46)
Interference-mediated synaptonemal complex formation with embedded crossover designation (2014) (45)
Asy2/Mer2: an evolutionarily conserved mediator of meiotic recombination, pairing, and global chromosome compaction (2017) (45)
Tn 10 transposition in vivo: temporal separation of cleavages at the two transposon ends and roles of terminal basepairs subsequent to interaction of ends. (1994) (45)
IS 10 mRNA stability and steady state levels in Escherichia coli: indirect effects of translation and role of rne function (1993) (43)
A rigorous measure of genome-wide genetic shuffling that takes into account crossover positions and Mendel’s second law (2019) (40)
Regulating tn10 and is10 transposition. (1990) (40)
A new type of fusion analysis applicable to many organisms: protein fusions to the URA3 gene of yeast. (1987) (39)
Preferential cis action of IS 10 transposase depends upon its mode of synthesis (1993) (36)
Gamma-H2AX illuminates meiosis. (2001) (36)
The two single-strand cleavages at each end of Tn10 occur in a specific order during transposition. (1995) (35)
Quantitation of insertion sequence IS10 transposase gene expression by a method generally applicable to any rarely expressed gene. (1986) (33)
Intra-G1 arrest in response to UV irradiation in fission yeast (2003) (32)
Transposition of plasmid-borne Tn10 elements does not exhibit simple length-dependence. (1985) (31)
Examination of Interchromosomal Interactions in Vegetatively Growing Diploid Schizosaccharomyces pombe Cells by Cre/loxP Site-Specific Recombination (2008) (31)
Tsr–GFP accumulates linearly with time at cell poles, and can be used to differentiate ‘old’ versus ‘new’ poles, in Escherichia coli (2008) (30)
Recombination-independent recognition of DNA homology for repeat-induced point mutation (2017) (29)
Genetic evidence against intramolecular rejoining of the donor DNA molecule following IS10 transposition. (1991) (28)
DNA sequence homology induces cytosine-to-thymine mutation by a heterochromatin-related pathway in Neurospora (2017) (28)
Building bridges to move recombination complexes (2019) (28)
Tn10 transpososome assembly involves a folded intermediate that must be unfolded for target capture and strand transfer (2000) (27)
Sme4 coiled-coil protein mediates synaptonemal complex assembly, recombinosome relocalization, and spindle pole body morphogenesis (2011) (27)
Efficient Tn10 transposition into a DNA insertion hot spot in vivo requires the 5-methyl groups of symmetrically disposed thymines within the hot-spot consensus sequence. (1987) (27)
IS10 promotes adjacent deletions at low frequency. (1991) (27)
Mechanism and regulation of Tn10 transposition. (1984) (27)
Tn10 transposition promotes RecA-dependent induction of a lambda prophage. (1988) (26)
Recombination-Independent Recognition of DNA Homology for Repeat-Induced Point Mutation (RIP) Is Modulated by the Underlying Nucleotide Sequence (2016) (26)
Coordination of Growth, Chromosome Replication/Segregation, and Cell Division in E. coli (2018) (25)
Recruitment of Rec8, Pds5 and Rad61/Wapl to meiotic homolog pairing, recombination, axis formation and S-phase (2019) (25)
Essential sites at transposon Tn 10 termini. (1984) (24)
Quantitative Modeling and Automated Analysis of Meiotic Recombination (2016) (24)
recA-dependent genetic switch generated by transposon Tn10. (1980) (24)
Crossover Interference, Crossover Maturation, and Human Aneuploidy. (2019) (23)
The rate of Dam-mediated DNA adenine methylation in Escherichia coli. (1988) (23)
Translocation and other recombination events involving the tetracycline-resistance element Tn10. (1979) (21)
Multiple IS10 rearrangements in Escherichia coli. (1984) (21)
The differential extension in dsDNA bound to Rad51 filaments may play important roles in homology recognition and strand exchange (2013) (20)
Structural domains of IS10 transposase and reconstitution of transposition activity from proteolytic fragments lacking an interdomain linker. (1995) (19)
The 3D Topography of Mitotic Chromosomes. (2020) (19)
Evolution of crossover interference enables stable autopolyploidy by ensuring pairwise partner connections in Arabidopsis arenosa (2021) (18)
Interactions between and along chromosomes during meiosis. (1995) (17)
Meiotic chromosome dynamics (2011) (16)
Protein-mediated chromosome pairing of repetitive arrays. (2014) (15)
Genetic characterization of plasmid formation by N- mutants of bacteriophage lambda. (1977) (14)
New IS10 transposition vectors based on a gram-positive replication origin. (1992) (14)
Absence of SUN-domain protein Slp1 blocks karyogamy and switches meiotic recombination and synapsis from homologs to sister chromatids (2014) (13)
Single-molecule studies of the stringency factors and rates governing the polymerization of RecA on double-stranded DNA (2011) (13)
Two classes of Tn10 transposase mutants that suppress mutations in the Tn10 terminal inverted repeat. (1996) (13)
Dynamic Trans Interactions in Yeast Chromosomes (2013) (13)
Changes in the tension in dsDNA alter the conformation of RecA bound to dsDNA–RecA filaments (2011) (13)
Single-Particle Studies Reveal a Nanoscale Mechanism for Elastic, Bright, and Repeatable ZnS:Mn Mechanoluminescence in a Low-Pressure Regime. (2021) (11)
Chromosome Capture Brings It All Together (2013) (11)
Mutants of Escherichia coli K12 which affect excision of transposon Tn10. (1982) (10)
Amber mutants in the O gene of bacteriophage lambda are not efficiently complemented in the absence of phage N function. (1977) (9)
The ends of Tn10 are not IS3 (1979) (9)
Erratum to: Dynamic chromosome movements during meiosis: a way to eliminate unwanted connections? [Trends in Cell Biology (2009) 19, 716–724] (2010) (9)
CHAPTER 6 – Transposon Tn10 (1983) (8)
Crossover maturation inefficiency and aneuploidy in human female meiosis (2017) (8)
PROPERTIES OF DRUG RESISTANCE TRANSPOSONS, WITH PARTICULAR REFERENCE TO Tn10 (1980) (7)
Terminal redundancy heterozygotes involving the first-step-transfer region of the bacteriophage T5 chromosome. (1976) (6)
Genetic organization of Tn10 and analysis of Tn10-associated excision events. (1981) (6)
Expression of the Saccharomyces cerevisiae RAD50 gene during meiosis: steady-state transcript levels rise and fall while steady-state protein levels remain constant (1993) (5)
Magnetic force micropiston: an integrated force/microfluidic device for the application of compressive forces in a confined environment. (2014) (5)
Questions and Assays (2016) (4)
Mesoscale spatial patterning in the Escherichia coli Min system: Reaction–diffusion versus mechanical communication (2010) (4)
One-dimensional spatial patterning along mitotic chromosomes: A mechanical basis for macroscopic morphogenesis (2020) (4)
Mechanism and regulation of transposon tn 10 transposition (1984) (4)
27 – Regulation of IS10 Transposase Expression by RNA/RNA Pairing (1987) (3)
Limitations of gamete sequencing for crossover analysis (2022) (3)
Transposon Tn10: genetic organization, regulation, and insertion specificity. (1982) (2)
High Temporal Resolution 3D Live-Cell Imaging of Budding Yeast Meiosis Defines Discontinuous Actin/Telomere-Mediated Chromosome Motion, Correlated Nuclear Envelope Deformation and Actin Filament Dynamics (2021) (2)
Assaying chromosome pairing by FISH analysis of spread Saccharomyces cerevisiae nuclei. (2009) (2)
A rigorous measure of genome-wide genetic shuffling that takes into account crossover positions and Mendel's second law (2018) (2)
Physical Analysis of Tnl U-and ISIU-Promoted Transpositions and Rearrangements (2003) (1)
Single molecule identification of homology-dependent interactions between long ssRNA and dsDNA (2016) (1)
Tn 10 transpososome assembly involves a folded intermediate that must be unfolded for target capture and strand transfer esterification reaction that covalently joins the transposon (2013) (1)
Transposons and illegitimate recombination in prokaryotes: a summary and perspective. (1982) (1)
The distribution of crossovers, and the measure of total recombination (2017) (1)
Sister chromatids separate during anaphase in a three-stage program as directed by interaxis bridges (2022) (1)
Corrections (2004) (0)
A Magnetic Force Micropiston for Analysis of Chromosome Expansive and Compressive Forces and their Effects on Structure and Function (2010) (0)
The E.coli Chromosome is an Internally-Organized, Springy, Helical Ellipsoid, the Shape and Dynamics of Which, Through the Cell Cycle, are Determined by the Mechanical Constraints Associated with Replication-Driven Extrusion of DNA/chromatin into a Confined Space (2010) (0)
Organization and Dynamics of the Living E. Coli Nucleoid at High Resolution in Space and Time (2012) (0)
Translation start of IS10 transposase protein. (1988) (0)
Possibilities for future research on transposition and site-specific recombination (1992) (0)
The Scaffolding Subunit of PP2A is a Coherent Linear Elastic Object That Can Transmit Mechanical Information Along Its Length (2009) (0)
TnlOIISlO Transposase Purification , Activation , and in Vitro Reaction (2001) (0)
GENETIC ANALYSIS OF TRANSPOSITION AND EXCISION BY TRANSPOSON Tn10 (1980) (0)
Regulation of transportation in bacteria (1990) (0)
Photonic and Magnetic Force Micro-piston: An integrated force/microfluidic device for investigating expansion and compression stress in chromatin/chromosomes and their roles in chromosome function. (2009) (0)
RecA balances genomic stability and evolution using many successive mismatch tolerant homology tests (2022) (0)
Erratum to “The bacterial nucleoid: nature, dynamics and sister segregation” [Curr. Opin. Microbiol. 22 (2014) 127–137] (2015) (0)
Demonstration that the Force vs. Extension Curves for Overstretched Double Stranded DNA Depend on which ends are Pulled (2008) (0)
Study Of Sequence Dependent Homolog Pairing With A Single Molecule Assay (2009) (0)
Formation Of RecA Filament During The Mechanical Unzipping Of dsDNA To ssDNA: Competition With SSB Differentially Controls RecA Mediated SOS Response And Replication Repair (2009) (0)
A general quantitative relation linking bacterial cell growth and the cell cycle (2019) (0)
Limitations of gamete sequencing for crossover analysis (2022) (0)
Decision letter: Two different cell-cycle processes determine the timing of cell division in Escherichia coli (2021) (0)
Seeing meiotic chromosomes without seeing them (2000) (0)
The challenge of evolving stable polyploidy: could an increase in “crossover interference distance” play a central role? (2016) (0)
How is a low level of zero-CO bivalents ensured by the beam-film model? (2014) (0)
Mutations in Saccharomyces cereuisiae That Block Meiotic Prophase Chromosome Metabolism and Confer Cell Cycle Arrest at Pachytene Identify Two New Meiosis-Specific Genes SAEl and SAE3 (2002) (0)
Investigation of a new conformation of double stranded DNA (2007) (0)
McClintock (1933): implications for meiotic chromosome pairing. (1992) (0)
Segregation of Sister Chromosomes in E. coli is Governed by the Shape of the Nucleoid and the Release of Inter-Sister “snaps” (2011) (0)
The two single-strand cleavages at each end of Tn 1 O occur in a specific order during transposition ( nicking / nonreplicative transposon ) (2005) (0)
Chromosomes as Mechanical Objects: Commonalities from Bacteria to Mammalian Cells (2016) (0)
A Novel rho Promoter : : TnlO Mutation Suppresses an ftsQl ( Ts ) Missense Mutation in an Essential Escherichia coli Cell Division Gene by a Mechanism Not Involving Polarity Suppression (2003) (0)
Breaks in Replication Slow Zones ATR Homolog Mec1 Promotes Fork Progression, Thus Averting (2014) (0)

This paper list is powered by the following services:

Other Resources About Nancy Kleckner

en.wikipedia.org

What Schools Are Affiliated With Nancy Kleckner?

Nancy Kleckner is affiliated with the following schools: