scholarly article | Q13442814 |
P356 | DOI | 10.1007/S00709-009-0089-9 |
P698 | PubMed publication ID | 20091066 |
P2093 | author name string | Claire Olsofka | |
Judith A Snyder | |||
Reema Wahdan | |||
Yen Ha | |||
P2860 | cites work | Kinetochores capture astral microtubules during chromosome attachment to the mitotic spindle: direct visualization in live newt lung cells | Q24678769 |
Correlation between effects of 24 different cytochalasins on cellular structures and cellular events and those on actin in vitro | Q24681474 | ||
Kinetochore chemistry is sensitive to tension and may link mitotic forces to a cell cycle checkpoint | Q30442219 | ||
Myosin-10 and actin filaments are essential for mitotic spindle function | Q30482632 | ||
The Spindle Assembly and Spindle Position Checkpoints | Q33195000 | ||
Cooperation between microtubule- and actin-based motor proteins | Q33804294 | ||
Microtubule motors in mitosis | Q34036578 | ||
Attachment and tension in the spindle assembly checkpoint | Q34145216 | ||
Mitosis, microtubules, and the matrix | Q34318145 | ||
Chromosome-microtubule interactions during mitosis | Q34762544 | ||
Cell division | Q35109702 | ||
Differential staining of actin in metaphase spindles with 7-nitrobenz-2-oxa-1,3-diazole-phallacidin and fluorescent DNase: is actin involved in chromosomal movement? | Q35362800 | ||
E pluribus unum: towards a universal mechanism for spindle assembly | Q35861625 | ||
Mechanisms and molecules of the mitotic spindle | Q35893361 | ||
Does 2,3-butanedione monoxime inhibit nonmuscle myosin? | Q36114478 | ||
The spindle checkpoint: tension versus attachment. | Q36220221 | ||
Anaphase onset in vertebrate somatic cells is controlled by a checkpoint that monitors sister kinetochore attachment to the spindle | Q36234928 | ||
Microfilaments: dynamic arrays in higher plant cells | Q36464754 | ||
Cooperative mechanisms of mitotic spindle formation | Q36821819 | ||
Actin stress fibres | Q36967566 | ||
Fluorescent antibody localization of myosin in the cytoplasm, cleavage furrow, and mitotic spindle of human cells | Q39408251 | ||
Does actin produce the force that moves a chromosome to the pole during anaphase? | Q39829456 | ||
Localization of myosin II to chromosome arms and spindle fibers in PtK1 cells: a possible role for an actomyosin system in mitosis | Q40427583 | ||
The effect of cytochalasin J on kinetochore structure in PtK1 cells is mitotic cycle dependent | Q40788927 | ||
Cytochalasin J treatment significantly alters mitotic spindle microtubule organization and kinetochore structure in PtK1 cells | Q41142137 | ||
Cytochalasin J affects chromosome congression and spindle microtubule organization in PtK1 cells | Q41385840 | ||
Activation of myosin V-based motility and F-actin-dependent network formation of endoplasmic reticulum during mitosis | Q42228558 | ||
Myosin Va associates with microtubule-rich domains in both interphase and dividing cells | Q42827846 | ||
Effects of anti-myosin drugs on anaphase chromosome movement and cytokinesis in crane-fly primary spermatocytes | Q43864561 | ||
Jasplakinolide, an actin stabilizing agent, alters anaphase chromosome movements in crane-fly spermatocytes | Q45349855 | ||
Redundant mechanisms for anaphase chromosome movements: crane-fly spermatocyte spindles normally use actin filaments but also can function without them | Q46756190 | ||
Actin and myosin inhibitors block elongation of kinetochore fibre stubs in metaphase crane-fly spermatocytes | Q46840137 | ||
Mitosis: spindle evolution and the matrix model. | Q51789282 | ||
Rhodamine-labelled phalloidin stains components in the chromosomal spindle fibres of crane-fly spermatocytes and Haemanthus endosperm cells | Q52440961 | ||
Myosin localization during meiosis I of crane‐fly spermatocytes gives indications about its role in division | Q52550484 | ||
Cytochalasin D and latrunculin affect chromosome behaviour during meiosis in crane-fly spermatocytes. | Q52567736 | ||
Evidence that actin and myosin are involved in the poleward flux of tubulin in metaphase kinetochore microtubules of crane-fly spermatocytes. | Q52575987 | ||
Spindle microtubules in flux. | Q52655927 | ||
Possible roles of actin and myosin during anaphase chromosome movements in locust spermatocytes. | Q52684589 | ||
The spindle checkpoint | Q59442898 | ||
Microinjected fluorescent phalloidin in vivo reveals the F-actin dynamics and assembly in higher plant mitotic cells | Q68408149 | ||
Role of non-kinetochore microtubules in spindle elongation in mitotic PtK1 cells | Q70028991 | ||
The interaction of actin filaments with microtubules and microtubule-associated proteins | Q72530238 | ||
Muscle structure and theories of contraction | Q74709864 | ||
What generates flux of tubulin in kinetochore microtubules? | Q81110177 | ||
Butanedione monoxime suppresses contraction and ATPase activity of rabbit skeletal muscle | Q93516185 | ||
P433 | issue | 1-4 | |
P304 | page(s) | 57-68 | |
P577 | publication date | 2009-11-29 | |
P1433 | published in | Protoplasma | Q15765986 |
P1476 | title | Both actin and myosin inhibitors affect spindle architecture in PtK1 cells: does an actomyosin system contribute to mitotic spindle forces by regulating attachment and movements of chromosomes in mammalian cells? | |
P478 | volume | 240 |
Q39561039 | Antimicrobials and in vitro systems: antibiotics and antimycotics alter the proteome of MCF-7 cells in culture |
Q40928235 | MCAK regulates chromosome alignment but is not necessary for preventing aneuploidy in mouse oocyte meiosis I. |
Q34619468 | Measurements of forces produced by the mitotic spindle using optical tweezers |
Q34615821 | The role of actin and myosin in PtK2 spindle length changes induced by laser microbeam irradiations across the spindle |
Search more.