Iva Tolić
#94,362
Most Influential Person Now
Croatian cell biologist
Iva Tolić's AcademicInfluence.com Rankings
Iva Tolićbiology Degrees
Biology
#7440
World Rank
#10369
Historical Rank
Cell Biology
#827
World Rank
#846
Historical Rank
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Biology
Iva Tolić's Degrees
- PhD Biophysics University of Zagreb
Why Is Iva Tolić Influential?
(Suggest an Edit or Addition)According to Wikipedia, Iva Marija Tolić is a Croatian biophysicist, known for her work on the microtubule cytoskeleton and associated motor proteins. She is currently Senior Research Group Leader and professor of Biology at the Ruđer Bošković Institute in Zagreb, Croatia.
Iva Tolić'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
- Traction fields, moments, and strain energy that cells exert on their surroundings. (2002) (946)
- Mechanical behavior in living cells consistent with the tensegrity model (2001) (722)
- Cell prestress. I. Stiffness and prestress are closely associated in adherent contractile cells. (2002) (669)
- Anomalous diffusion in living yeast cells. (2004) (359)
- Axon Extension Occurs Independently of Centrosomal Microtubule Nucleation (2010) (261)
- Merotelic kinetochore attachment: causes and effects (2011) (222)
- Cell prestress. II. Contribution of microtubules. (2002) (220)
- Modeling the insulin-glucose feedback system: the significance of pulsatile insulin secretion. (2000) (212)
- Positioning and Elongation of the Fission Yeast Spindle by Microtubule-Based Pushing (2004) (145)
- Self-Organization of Dynein Motors Generates Meiotic Nuclear Oscillations (2009) (127)
- Spatial and temporal traction response in human airway smooth muscle cells. (2002) (126)
- Overlap microtubules link sister k-fibres and balance the forces on bi-oriented kinetochores (2016) (117)
- Combined intracellular three-dimensional imaging and selective nanosurgery by a nonlinear microscope. (2005) (114)
- MatLab program for precision calibration of optical tweezers (2004) (107)
- Fission Yeast Does Not Age under Favorable Conditions, but Does So after Stress (2013) (93)
- Dynein Motion Switches from Diffusive to Directed upon Cortical Anchoring (2013) (88)
- Push-me-pull-you: how microtubules organize the cell interior (2008) (85)
- Microtubule Sliding within the Bridging Fiber Pushes Kinetochore Fibers Apart to Segregate Chromosomes (2017) (83)
- PRC1‐labeled microtubule bundles and kinetochore pairs show one‐to‐one association in metaphase (2016) (77)
- Traction in smooth muscle cells varies with cell spreading. (2005) (76)
- Pivoting of microtubules around the spindle pole accelerates kinetochore capture (2012) (76)
- tweezercalib 2.0: Faster version of MatLab package for precise calibration of optical tweezers (2006) (71)
- Self-Organization and Forces in the Mitotic Spindle. (2016) (69)
- Identification and regulation of a molecular module for bleb-based cell motility. (2012) (64)
- Fusion of Protein Aggregates Facilitates Asymmetric Damage Segregation (2014) (62)
- Single-molecule imaging in vivo: the dancing building blocks of the cell. (2013) (60)
- Growth pattern of single fission yeast cells is bilinear and depends on temperature and DNA synthesis. (2009) (58)
- tweezercalib 2.1: Faster version of MatLab package for precise calibration of optical tweezers (2006) (56)
- Optical micromanipulations inside yeast cells. (2005) (55)
- The mitotic spindle is chiral due to torques within microtubule bundles (2018) (47)
- Laser microsurgery provides evidence for merotelic kinetochore attachments in fission yeast cells lacking Pcs1 or Clr4 (2010) (44)
- Interphase Microtubules Determine the Initial Alignment of the Mitotic Spindle (2007) (42)
- Mitotic spindle: kinetochore fibers hold on tight to interpolar bundles (2017) (42)
- Force and length regulation in the microtubule cytoskeleton: lessons from fission yeast. (2010) (40)
- On the Zagreb Indices as Complexity Indices (2000) (39)
- Force-generating mechanisms of anaphase in human cells (2019) (39)
- A divide and conquer strategy for the maximum likelihood localization of low intensity objects. (2014) (39)
- Meiotic Nuclear Oscillations Are Necessary to Avoid Excessive Chromosome Associations. (2016) (32)
- Corrigendum: Paired arrangement of kinetochores together with microtubule pivoting and dynamics drive kinetochore capture in meiosis I (2016) (32)
- Isotropic actomyosin dynamics promote organization of the apical cell cortex in epithelial cells (2014) (28)
- Mitotic Spindle Assembly: Building the Bridge between Sister K-Fibers. (2016) (27)
- Complexity of Molecules (2003) (26)
- Relaxation of interkinetochore tension after severing of a k-fiber depends on the length of the k-fiber stub (2016) (25)
- Kinesin-8 motors improve nuclear centering by promoting microtubule catastrophe. (2015) (24)
- Swinging a sword: how microtubules search for their targets (2014) (24)
- Microtubule-sliding modules based on kinesins EG5 and PRC1-dependent KIF4A drive human spindle elongation (2021) (23)
- Association of mitochondria with spindle poles facilitates spindle alignment (2008) (23)
- Bridging the gap between sister kinetochores (2016) (22)
- Optogenetic control of PRC1 reveals its role in chromosome alignment on the spindle by overlap length-dependent forces (2021) (22)
- Cell imaging and manipulation by nonlinear optical microscopy (2007) (21)
- Laser microsurgery reveals conserved viscoelastic behavior of the kinetochore (2016) (20)
- Hypergravity speeds up the development of T-lymphocyte motility (2006) (20)
- Pivoting of microtubules driven by minus-end-directed motors leads to spindle assembly (2019) (19)
- Live cell X-ray imaging of autophagic vacuoles formation and chromatin dynamics in fission yeast (2017) (18)
- Astral Microtubule Pivoting Promotes Their Search for Cortical Anchor Sites during Mitosis in Budding Yeast (2014) (18)
- Dissection and characterization of microtubule bundles in the mitotic spindle using femtosecond laser ablation. (2017) (17)
- Versatile laser‐based cell manipulator (2008) (17)
- Asymmetric damage segregation at cell division via protein aggregate fusion and attachment to organelles. (2015) (16)
- Experimental tests of the cellular tensegrity hypothesis. (2003) (16)
- Mechanobiology of the Mitotic Spindle. (2020) (14)
- Optogenetic reversible knocksideways, laser ablation, and photoactivation on the mitotic spindle in human cells. (2018) (13)
- Paired arrangement of kinetochores together with microtubule pivoting and dynamics drive kinetochore capture in meiosis I (2016) (13)
- Nuclear chromosome locations dictate segregation error frequencies (2022) (12)
- Augmin regulates kinetochore tension and spatial arrangement of spindle microtubules by nucleating bridging fibers (2020) (11)
- Pulled Polymer Loops as a Model for the Alignment of Meiotic Chromosomes. (2015) (11)
- Optical trapping and laser ablation of microtubules in fission yeast. (2010) (11)
- Anaphase B: Long-standing models meet new concepts (2021) (11)
- Chromosome segregation is driven by joint microtubule sliding action of kinesins KIF4A and EG5 (2019) (11)
- Fusion leads to effective segregation of damage during cell division: An analytical treatment. (2015) (11)
- Single-molecule imaging of cytoplasmic dynein in vivo. (2015) (10)
- Helical Twist and Rotational Forces in the Mitotic Spindle (2019) (10)
- Laser ablation of the microtubule cytoskeleton: setting up and working with an ablation system. (2011) (9)
- Biomechanics of chromosome alignment at the spindle midplane (2021) (9)
- Naegleria’s mitotic spindles are built from unique tubulins and highlight core spindle features (2021) (8)
- Pivot-and-bond model explains microtubule bundle formation (2017) (7)
- Optogenetic control of PRC1 reveals that bridging fibers promote chromosome alignment by overlap length-dependent forces (2019) (6)
- Coordinated poleward flux of sister kinetochore fibers drives chromosome alignment (2021) (6)
- Spindle mechanics and chromosome segregation (2019) (5)
- The chirality of the mitotic spindle provides a mechanical response to forces and depends on microtubule motors and augmin (2020) (5)
- Complexity of Molecules. (2000) (4)
- Microtubules and motor proteins: Mechanically regulated self-organization in vivo (2009) (4)
- Twist of the mitotic spindle culminates at anaphase onset and depends on microtubule-associated proteins along with external forces (2020) (4)
- Expansion microscopy of the mitotic spindle. (2020) (4)
- Length-dependent poleward flux of sister kinetochore fibers promotes chromosome alignment (2022) (4)
- Cell Polarity: Which Way to Grow in an Electric Field? (2010) (3)
- Optogenetic control of PRC1 reveals its role in kinetochore alignment at the metaphase plate (2020) (3)
- Pivoting of microtubules driven by minus end directed motors leads to their alignment to form an interpolar bundle (2018) (3)
- Polar Chromosomes—Challenges of a Risky Path (2022) (3)
- Real-Time Imaging of DNA Damage in Yeast Cells Using Ultra-Short Near-Infrared Pulsed Laser Irradiation (2014) (3)
- The mitotic spindle is chiral due to torques generated by motor proteins (2017) (2)
- Augmin prevents merotelic attachments by promoting proper arrangement of bridging and kinetochore fibers (2022) (2)
- Proliferative advantage of specific aneuploid cells drives evolution of tumor karyotypes (2022) (2)
- Oblique circle method for measuring the curvature and twist of mitotic spindle microtubule bundles (2021) (2)
- Meiotic Spindle Has a Soft Spot. (2019) (2)
- Kinetochore- and chromosome-driven transition of microtubules into bundles promotes spindle assembly (2022) (2)
- THE NUMBER FIVE IN BIOLOGY (1998) (2)
- QUANTITATIVE STUDIES OF SUBDIFFUSION IN LIVING CELLS AND ACTIN NETWORKS (2006) (1)
- The Chirality of the Mitotic Spindle Provides a Mechanical Response to Forces and Depends on Microtubule Motors and Crosslinkers (2021) (1)
- Optogenetic Control of Spindle Microtubule Crosslinkers Reveals that Bridging Fibers Promote Chromosome Alignment by Overlap Length-Dependent Forces (2021) (1)
- Centrosomal microtubule nucleation regulates radial migration of projection neurons independently of polarization in the developing brain (2023) (1)
- Microtubule poleward flux promotes chromosome centering on the spindle (2021) (1)
- Fluorescence Recovery After Photobleaching (FRAP) in the Fission Yeast Nucleus (2013) (1)
- Measurement of curvature and twist of microtubule bundles in the mitotic spindle (2021) (1)
- The power of parasite collectives (2022) (0)
- When the Going Gets Tough: Scientists’ Personal Challenges (2014) (0)
- Live cell X-ray imaging of autophagic vacuoles formation and chromatin dynamics in fission yeast (2017) (0)
- Life of a Single Dynein during Meiotic Nuclear Oscillations (2012) (0)
- The unifying role of cytoskeletal prestress in micromechanics of the adherent cell (2002) (0)
- Two Functionally Redundant Sliding Modules Drive Chromosome Segregation (2020) (0)
- Refreshed but vulnerable: Yeast daughter cells are more sensitive to stress than young mothers (2011) (0)
- Bridging Microtubules Promote Centering of the Kinetochores by Length-Dependent Pulling Forces (2020) (0)
- Optical micromanipulation inside the cell: a focus in cell division (2006) (0)
- Bundling, sliding, and pulling microtubules in cells and in silico. (2007) (0)
- Collective Action of Motor Proteins on Microtubules Regulates Large-Scale Forces in the Cell (2010) (0)
- Bundling, sliding, and pulling microtubules in cells and in silico (2007) (0)
- Why publish single observations? Because Science Matters. (2016) (0)
- The mitotic spindle is chiral due to torques within microtubule bundles (2018) (0)
- Author response: Optogenetic control of PRC1 reveals its role in chromosome alignment on the spindle by overlap length-dependent forces (2020) (0)
- Nuclear chromosome locations dictate segregation error frequencies (2022) (0)
- ORIGIN OF LIFE : EARTH OR OUTER SPACE? (1998) (0)
- Plasmodium ARK2-EB1 axis drives the unconventional spindle dynamics, scaffold formation and chromosome segregation of sexual transmission stages (2023) (0)
- Microtubules Search for Lost Kinetochores by Pivoting Around the Spindle Pole (2012) (0)
- Pivoting of microtubules driven by minus-end-directed motors leads to spindle assembly (2019) (0)
- A Bundle of Antiparallel Microtubules Connects Sister K-Fibers and Balances Forces within the Metaphase Spindle (2015) (0)
- Collective Dynamics of Cytoplasmic Dynein Motors In Vitro (2010) (0)
- Plasmodium ARK2-EB1 axis drives the unconventional spindle dynamics, scaffold formation and chromosome segregation of sexual transmission stages (2023) (0)
- Micromechanics of the cytoskeleton: Experimental tests of the cellular tensegrity hypothesis (2001) (0)
- Microtubules search for chromosomes by pivoting around the spindle pole (2014) (0)
- Spindle twist culminates at anaphase onset and depends on microtubule-associated proteins along with external forces (2020) (0)
- Laser nanosurgery and manipulation in living cells (2005) (0)
- Torques and Forces in the Mitotic Spindle (2018) (0)
- Mitotic spindle: kinetochore fibers hold on tight to interpolar bundles (2017) (0)
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