Clara Franzini-Armstrong | Academic Influence

Clara Franzini-Armstrong's AcademicInfluence.com Rankings

Clara Franzini-Armstrong

Biology

#2786

World Rank

#4370

Historical Rank

Physiology

#153

World Rank

#325

Historical Rank

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Biology

Clara Franzini-Armstrong's Degrees

PhD Physiology University of Pennsylvania
Masters Physiology University of Pennsylvania
Bachelors Biology University of Pennsylvania

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Why Is Clara Franzini-Armstrong Influential?

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According to Wikipedia, Clara Franzini-Armstrong is an Italian-born American electron microscopist, and Professor Emeritus of Cell and Developmental Biology at University of Pennsylvania. Early life Clara Franzini was born on October 3, 1938, in Florence, Italy, along with her twin brother. As a child during World War II, she spent time in a hillside village. She lived with her mother, father and three brothers: Paolo, Carlo and Marco. The part of her childhood that occurred after the war consisted of competing with her brothers on exhausting mountain hikes, roller skating in Piazzale Michelangelo, observing the entire beautiful city and long relaxing times in scenic settings like the Dolomites. Furthermore, Franzini-Armstrong strongly remembers the constant protection and affection that her twin brother showed her as they were growing up.

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Clara Franzini-Armstrong'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

Structural evidence for direct interaction between the molecular components of the transverse tubule/sarcoplasmic reticulum junction in skeletal muscle (1988) (767)
Ryanodine receptors of striated muscles: a complex channel capable of multiple interactions. (1997) (694)
Shape, size, and distribution of Ca(2+) release units and couplons in skeletal and cardiac muscles. (1999) (599)
Casq2 deletion causes sarcoplasmic reticulum volume increase, premature Ca2+ release, and catecholaminergic polymorphic ventricular tachycardia. (2006) (437)
Structure and development of E-C coupling units in skeletal muscle. (1994) (413)
STUDIES OF THE TRIAD I. Structure of the Junction in Frog Twitch Fibers (1970) (406)
The brain ryanodine receptor: A caffeine-sensitive calcium release channel (1991) (393)
SARCOLEMMAL INVAGINATIONS CONSTITUTING THE T SYSTEM IN FISH MUSCLE FIBERS (1964) (333)
Myology: Basic and clinical (1986) (326)
Regulation of Ca2+ signaling in transgenic mouse cardiac myocytes overexpressing calsequestrin. (1998) (306)
Localization of Calcium-Accumulating Structures in Striated Muscle Fibers (1965) (247)
Molecular architecture of membranes involved in excitation-contraction coupling of cardiac muscle (1995) (243)
Subunit identification and reconstitution of the N-type Ca2+ channel complex purified from brain. (1993) (227)
Formation of junctions involved in excitation-contraction coupling in skeletal and cardiac muscle. (1996) (226)
The structure of calsequestrin in triads of vertebrate skeletal muscle: a deep-etch study (1987) (224)
The relative contributions of the folds and caveolae to the surface membrane of frog skeletal muscle fibres at different sarcomere lengths. (1975) (223)
Ca2+ blinks: rapid nanoscopic store calcium signaling. (2005) (207)
Stac3 is a component of the excitation-contraction coupling machinery and mutated in Native American myopathy (2013) (187)
Transport of Ca2+ from Sarcoplasmic Reticulum to Mitochondria in Rat Ventricular Myocytes (2000) (185)
THE SARCOPLASMIC RETICULUM. (1965) (166)
Ablation of triadin causes loss of cardiac Ca2+ release units, impaired excitation–contraction coupling, and cardiac arrhythmias (2009) (154)
Tomographic 3D Reconstruction of Quick-Frozen, Ca2+-Activated Contracting Insect Flight Muscle (1999) (153)
Role of Ryanodine Receptors in the Assembly of Calcium Release Units in Skeletal Muscle (1998) (142)
Further characterization of light and heavy sarcoplasmic reticulum vesicles. Identification of the 'sarcoplasmic reticulum feet' associated with heavy sarcoplasmic reticulum vesicles. (1980) (138)
Subunit structure of junctional feet in triads of skeletal muscle: a freeze-drying, rotary-shadowing study (1984) (135)
The beta 1a subunit is essential for the assembly of dihydropyridine-receptor arrays in skeletal muscle. (2005) (134)
Kissing and nanotunneling mediate intermitochondrial communication in the heart (2013) (131)
Comparative Ultrastructure of Ca2+ Release Units in Skeletal and Cardiac Muscle (1998) (131)
Junctate is a key element in calcium entry induced by activation of InsP3 receptors and/or calcium store depletion (2004) (130)
Modest Reductions of Cardiac Calsequestrin Increase Sarcoplasmic Reticulum Ca2+ Leak Independent of Luminal Ca2+ and Trigger Ventricular Arrhythmias in Mice (2007) (129)
The Assembly of Calcium Release Units in Cardiac Muscle (2005) (128)
Independent assembly of 1.6 microns long bipolar MHC filaments and I-Z-I bodies. (1997) (125)
A genetic screen identifies genes essential for development of myelinated axons in zebrafish. (2006) (123)
Abnormal junctions between surface membrane and sarcoplasmic reticulum in skeletal muscle with a mutation targeted to the ryanodine receptor. (1995) (121)
Full-length myosin VI dimerizes and moves processively along actin filaments upon monomer clustering. (2006) (120)
Casq 2 deletion causes sarcoplasmic reticulum volume increase , premature Ca 2 + release , and catecholaminergic polymorphic ventricular tachycardia (2006) (119)
Membrane particles and transmission at the triad. (1975) (119)
Biochemical and ultrastructural characterization of the 1,4-dihydropyridine receptor from rabbit skeletal muscle. Evidence for a 52,000 Da subunit. (1988) (107)
Characterization and temporal development of cores in a mouse model of malignant hyperthermia (2009) (105)
ER-mitochondria communication. How privileged? (2007) (104)
RYR1 and RYR3 have different roles in the assembly of calcium release units of skeletal muscle. (2000) (104)
In Vivo Nerve–Macrophage Interactions Following Peripheral Nerve Injury (2012) (102)
A flexible domain is essential for the large step size and processivity of myosin VI. (2005) (99)
Type 3 ryanodine receptors of skeletal muscle are segregated in a parajunctional position (2002) (99)
Multiple regions of RyR1 mediate functional and structural interactions with alpha(1S)-dihydropyridine receptors in skeletal muscle. (2002) (97)
STUDIES OF THE TRIAD (1970) (97)
Sequential docking, molecular differentiation, and positioning of T-Tubule/SR junctions in developing mouse skeletal muscle. (2001) (96)
Restoration of junctional tetrads in dysgenic myotubes by dihydropyridine receptor cDNA. (1994) (96)
Development of the excitation-contraction coupling apparatus in skeletal muscle: association of sarcoplasmic reticulum and transverse tubules with myofibrils. (1993) (94)
Myosin VI dimerization triggers an unfolding of a three-helix bundle in order to extend its reach. (2009) (92)
Coordinated Incorporation of Skeletal Muscle Dihydropyridine Receptors and Ryanodine Receptors in Peripheral Couplings of BC3H1 Cells (1997) (91)
The sarcoplasmic reticulum and the control of muscle contraction (1999) (90)
Alterations in contractility and intracellular Ca2+ transients in isolated bundles of skeletal muscle fibers from rats with chronic heart failure. (1993) (88)
Junctional feet and particles in the triads of a fast-twitch muscle fibre (1983) (87)
Structure of sarcoplasmic reticulum. (1980) (87)
Functional nonequality of the cardiac and skeletal ryanodine receptors. (1997) (86)
Formation and maturation of the calcium release apparatus in developing and adult avian myocardium. (1996) (82)
Natural variability in the length of thin and thick filaments in single fibres from a crab, Portunus depurator. (1970) (81)
Triadins Modulate Intracellular Ca2+ Homeostasis but Are Not Essential for Excitation-Contraction Coupling in Skeletal Muscle* (2007) (78)
An Ryr1I4895T mutation abolishes Ca2+ release channel function and delays development in homozygous offspring of a mutant mouse line (2007) (78)
Structural alterations in cardiac calcium release units resulting from overexpression of junctin. (2001) (78)
Overexpression of junctophilin-2 does not enhance baseline function but attenuates heart failure development after cardiac stress (2014) (77)
Evidence for conformational coupling between two calcium channels. (2004) (76)
Bidirectional signaling between calcium channels of skeletal muscle requires multiple direct and indirect interactions (2006) (71)
Increased neuromuscular activity causes axonal defects and muscular degeneration (2004) (71)
A conserved interaction of the dynein light intermediate chain with dynein-dynactin effectors necessary for processivity (2018) (71)
The relative position of RyR feet and DHPR tetrads in skeletal muscle. (2004) (69)
Flash and smash: rapid freezing of muscle fibers activated by photolysis of caged ATP. (1993) (68)
MUP-4 is a novel transmembrane protein with functions in epithelial cell adhesion in Caenorhabditis elegans (2001) (66)
Functional and structural approaches to the study of excitation-contraction coupling. (1997) (65)
Proper Restoration of Excitation-Contraction Coupling in the Dihydropyridine Receptor β1-null Zebrafish Relaxed Is an Exclusive Function of the β1a Subunit* (2009) (65)
THE STRUCTURE OF A SIMPLE Z LINE (1973) (65)
Size and shape of transverse tubule openings in frog twitch muscle fibers (1975) (64)
Quantitation of Ca ATPase, feet and mitochondria in superfast muscle fibres from the toadfish,Opsanus tau (1991) (63)
Calsequestrin depolymerizes when calcium is depleted in the sarcoplasmic reticulum of working muscle (2017) (62)
Adaptability of myosin V studied by simultaneous detection of position and orientation (2006) (62)
Details of the I band structure as revealed by the localization of ferritin. (1970) (60)
Density and disposition of Ca2+-ATPase in sarcoplasmic reticulum membrane as determined by shadowing techniques. (1985) (60)
A mutation in calsequestrin, CASQ2D307H, impairs Sarcoplasmic Reticulum Ca2+ handling and causes complex ventricular arrhythmias in mice. (2007) (60)
Junctin and calsequestrin overexpression in cardiac muscle: the role of junctin and the synthetic and delivery pathways for the two proteins. (2003) (60)
Discrimination between fast- and slow-twitch fibres of guinea pig skeletal muscle using the relative surface density of junctional transverse tubule membrane (1988) (59)
Structural Proximity of Mitochondria to Calcium Release Units in Rat Ventricular Myocardium May Suggest a Role in Ca2+ Sequestration (1998) (59)
T‐tubule swelling in hypertonic solutions: a freeze substitution study. (1978) (59)
Striated muscle-contractile and control mechanisms (1981) (59)
Mice expressing T4826I‐RYR1 are viable but exhibit sex‐ and genotype‐dependent susceptibility to malignant hyperthermia and muscle damage (2012) (59)
T-tubule formation in cardiacmyocytes: two possible mechanisms? (2007) (57)
Sequential stages in the age-dependent gradual formation and accumulation of tubular aggregates in fast twitch muscle fibers: SERCA and calsequestrin involvement (2012) (56)
Structural evidence for perinuclear calcium microdomains in cardiac myocytes. (2011) (56)
Extreme sarcoplasmic reticulum volume loss and compensatory T-tubule remodeling after Serca2 knockout (2012) (56)
The structure of the membrane systems in a novel muscle cell modified for heat production (1988) (55)
9 – MEMBRANOUS SYSTEMS IN MUSCLE FIBERS (1973) (54)
Organization of Ca2+ release units in excitable smooth muscle of the guinea-pig urinary bladder. (2004) (54)
Increased mitochondrial nanotunneling activity, induced by calcium imbalance, affects intermitochondrial matrix exchanges (2017) (54)
Electron Tomography of Cryofixed, Isometrically Contracting Insect Flight Muscle Reveals Novel Actin-Myosin Interactions (2010) (53)
The lh3 Glycosyltransferase Directs Target-Selective Peripheral Nerve Regeneration (2015) (52)
Alternate disposition of tetrads in peripheral couplings of skeletal muscle (1995) (52)
Schwann Cells and Deleted in Colorectal Carcinoma Direct Regenerating Motor Axons Towards Their Original Path (2014) (52)
STUDIES OF THE TRIAD II. Penetration of Tracers into the Junctional Gap (1971) (52)
Triadin/Junctin Double Null Mouse Reveals a Differential Role for Triadin and Junctin in Anchoring CASQ to the jSR and Regulating Ca2+ Homeostasis (2012) (51)
Morphology and molecular composition of sarcoplasmic reticulum surface junctions in the absence of DHPR and RyR in mouse skeletal muscle. (2002) (50)
Nanoscale patterning of STIM1 and Orai1 during store-operated Ca2+ entry (2015) (50)
The relationship between form and function throughout the history of excitation–contraction coupling (2018) (50)
FREEZE FRACTURE OF SKELETAL MUSCLE FROM THE TARANTULA SPIDER (1974) (50)
Electron tomography of fast frozen, stretched rigor fibers reveals elastic distortions in the myosin crossbridges. (2004) (48)
Sarcolemmal Imaginations and the T-System in Fish Skeletal Muscle (1964) (47)
Cross-bridge number, position, and angle in target zones of cryofixed isometrically active insect flight muscle. (2004) (47)
Differential contribution of skeletal and cardiac II-III loop sequences to the assembly of dihydropyridine-receptor arrays in skeletal muscle. (2004) (46)
Trabecular network in adult skeletal muscle. (1980) (45)
A modified Golgi black reaction method for light and electron microscopy. (1982) (44)
Alpha2delta1 dihydropyridine receptor subunit is a critical element for excitation-coupled calcium entry but not for formation of tetrads in skeletal myotubes. (2008) (44)
FINE STRUCTURE OF SARCOPLASMIC RETICULUM AND TRANVERSE TUBULAR SYSTEM IN MUSCLE FIBERS. (1964) (44)
Architecture and regulation of the Ca2+ delivery system in muscle cells. (2009) (44)
The I4895T mutation in the type 1 ryanodine receptor induces fiber‐type specific alterations in skeletal muscle that mimic premature aging (2010) (43)
The Ca2+ ATPase content of slow and fast twitch fibers of guinea pig (1988) (43)
T-tubule profiles in Purkinje fibres of mammalian myocardium (2007) (42)
Freeze-fracture of frog slow tonic fibers. Structure of surface and internal membranes. (1984) (39)
Structural changes in muscle crossbridges accompanying force generation (1994) (38)
Recent contributions of electron microscopy to the study of normal and pathological muscle. (1969) (38)
Location of ryanodine and dihydropyridine receptors in frog myocardium. (2003) (37)
Differential requirement for MuSK and dystroglycan in generating patterns of neuromuscular innervation (2007) (35)
Congenital myopathy results from misregulation of a muscle Ca2+ channel by mutant Stac3 (2016) (35)
Evolution of skeletal type e–c coupling (2005) (34)
Satellite and invasive cells in frog sartorius muscle. (1978) (34)
Structure and periodicities of cross-bridges in relaxation, in rigor, and during contractions initiated by photolysis of caged Ca2+. (1996) (33)
Co-expression in CHO cells of two muscle proteins involved in excitation-contraction coupling (1995) (33)
Myosin rod protein: a novel thick filament component of Drosophila muscle. (1997) (33)
Quantitation of 'junctional feet' content in two types of muscle fiber from hind limb muscles of the rat. (1989) (33)
Studies of the triad. 3. Structure of the junction in fast twitch fibers. (1972) (30)
The Calsequestrin Mutation CASQ2D307H Does Not Affect Protein Stability and Targeting to the Junctional Sarcoplasmic Reticulum but Compromises Its Dynamic Regulation of Calcium Buffering* (2009) (29)
Organization of Ca 2 1 Release Units in Excitable Smooth Muscle of the Guinea-Pig Urinary Bladder (2004) (29)
Dispositions of junctional feet in muscles of invertebrates (1992) (29)
Development of the excitation-contraction coupling apparatus in skeletal muscle: peripheral and internal calcium release units are formed sequentially (1994) (29)
Domain cooperativity in the β1a subunit is essential for dihydropyridine receptor voltage sensing in skeletal muscle (2013) (29)
PORES IN THE SARCOPLASMIC RETICULUM (1963) (28)
The passive electrical properties of frog skeletal muscle fibres at different sarcomere lengths. (1977) (27)
Effect of Ca2+ on the dimeric structure of scallop sarcoplasmic reticulum (1989) (27)
The Structure of Ca2+ Release Units in Arthropod Body Muscle Indicates an Indirect Mechanism for Excitation-Contraction Coupling (2002) (27)
Ordered arrays of Ca2+-ATPase on the cytoplasmic surface of isolated sarcoplasmic reticulum. (1985) (26)
Functional implications of RyR-dHPR relationships in skeletal and cardiac muscles. (2004) (26)
Novel Details of Calsequestrin Gel Conformation in Situ * (2013) (26)
Targeted ablation of the histidine-rich Ca2+-binding protein (HRC) gene is associated with abnormal SR Ca2+-cycling and severe pathology under pressure-overload stress (2013) (25)
New views of smooth muscle structure using freezing, deep-etching and rotary shadowing (1985) (25)
The Evolution of the Mitochondria-to-Calcium Release Units Relationship in Vertebrate Skeletal Muscles (2011) (24)
Mutation of sec63 in zebrafish causes defects in myelinated axons and liver pathology (2012) (24)
Correct targeting of dihydropyridine receptors and triadin in dyspedic mouse skeletal muscle in vivo (1999) (23)
A simple method for freeze-drying of macromolecules and macromolecular complexes. (1990) (22)
Dyad content is reduced in cardiac myocytes of mice with impaired calmodulin regulation of RyR2 (2014) (21)
Skeletal Muscle Microalterations in Patients Carrying Malignant Hyperthermia-Related Mutations of the e-c Coupling Machinery (2016) (21)
Disruption of Caenorhabditis elegans muscle structure and function caused by mutation of troponin I. (2004) (21)
Differentiation of membrane systems during development of slow and fast skeletal muscle fibres in chicken (1993) (20)
The Z disc of skeletal muscle fibrils (1963) (20)
Ultrastructure of cardiac muscle in reptiles and birds: optimizing and/or reducing the probability of transmission between calcium release units (2012) (19)
Electron Microscopy: From 2D to 3D Images with Special Reference to Muscle (2015) (19)
The structure and disposition of crossbridges in deep-etched fish muscle (1984) (19)
Extra actin filaments at the periphery of skeletal muscle myofibrils. (1991) (18)
Effects of Germline VHL Deficiency on Growth, Metabolism, and Mitochondria. (2020) (17)
The structure of Ca(2+) release units in arthropod body muscle indicates an indirect mechanism for excitation-contraction coupling. (2002) (16)
Structural and functional properties of ryanodine receptor type 3 in zebrafish tail muscle (2015) (15)
Differences in the histogenesis of EDL and diaphragm in rat (1992) (15)
Skeletal muscle excitation–contraction coupling is independent of a conserved heptad repeat motif in the C-terminus of the DHPRβ1a subunit (2010) (15)
Amino Acid Residues 489–503 of Dihydropyridine Receptor (DHPR) β1a Subunit Are Critical for Structural Communication between the Skeletal Muscle DHPR Complex and Type 1 Ryanodine Receptor* (2014) (15)
Rigor crossbridges are double-headed in fast muscle from crayfish (1987) (14)
Visualization of inositol 1,4,5-trisphosphate receptors on the nuclear envelope outer membrane by freeze-drying and rotary shadowing for electron microscopy. (2010) (14)
Shape and disposition of clefts, tubules, and sarcoplasmic reticulum in long and short sarcomere fibers of crab and crayfish (2004) (14)
Highly extensible skeletal muscle in snakes (2014) (14)
Structural Changes in Isometrically Contracting Insect Flight Muscle Trapped following a Mechanical Perturbation (2011) (13)
Contribution of myosin rod protein to the structural organization of adult and embryonic muscles in Drosophila. (2003) (12)
Functional significance of membrane architecture in skeletal and cardiac muscle. (1996) (12)
Elongated mitochondrial constrictions and fission in muscle fatigue (2018) (11)
Aggregates of particles on the plasmalemma of striated muscle from a spider. (1979) (10)
Structure of membranes in crayfish muscle: comparison of phasic and tonic fibres (1982) (10)
RyRs: Their Disposition, Frequency, and Relationships with Other Proteins of Calcium Release Units. (2010) (9)
The Density and Disposition of Ca‐ATPase in In Situ and Isolated Sarcoplasmic Reticulum a (1986) (9)
Evolution of skeletal type e–c coupling: a novel means of controlling calcium delivery (2005) (9)
Hugh E. Huxley: birth of the filament sliding model of muscle contraction. (2002) (8)
Golgi stain identifies three types of fibres in fish muscle (1987) (8)
Structure and Function of Membrane Systems of Skeletal Muscle Cells (2011) (8)
Skeletal Muscle: Architecture of Membrane Systems (2012) (8)
Annemarie Weber: Ca2+ and the regulation of muscle contraction. (1998) (7)
The binding interactions that maintain excitation–contraction coupling junctions in skeletal muscle (2019) (7)
A method for the ultrastructural preservation of tiny percutaneous needle biopsy material from skeletal muscle (2013) (7)
Structure of the M Band (1987) (7)
Mechanics and structure of cross-bridges during contractions initiated by photolysis of caged Ca2+. (1993) (6)
Biochemical and Ultrastructural Characterization of the 1 , 4-Dihydropyridine Receptor from Rabbit Skeletal Muscle (2001) (6)
Structural and functional properties of ryanodine receptor type 3 in zebrafish tail muscle (2015) (6)
Can the Arrangement of RyR2 in Cardiac Muscle Be Predicted? (2016) (5)
Correction: The relationship between form and function throughout the history of excitation–contraction coupling (2018) (5)
The Contractile Machinery of Skeletal Muscle (2012) (5)
Molecular Architecture of T-SR Junctions: Evidence for a Junctional Complex That Directly Connects the Two Membrane Systems (1990) (4)
Practical Solutions to Frequent Problems Encountered in Thin Sections Electron Microscopy (2017) (4)
Electron Tomography of Mitochondrial Nanotunnels in a CPVT Model with RyR2 Loss-of-Function Mutation (2016) (3)
The structural basis for intermitochondrial communications is fundamentally different in cardiac and skeletal muscle (2020) (3)
A proposed role for non-junctional transverse tubules in skeletal muscle as flexible segments allowing expansion of the transverse network (2019) (2)
Unraveling the ryanodine receptor. (1994) (2)
Memories of Annemarie Weber (2014) (2)
Letters to the Editor: Junctophilins and SR Docking in Muscle (2012) (1)
Ultrastructure of primary pacemaking cells in rabbit sino‐atrial node cells indicates limited sarcoplasmic reticulum content (2020) (1)
High Levels of Calsequestrin in Some Snake Muscles. Why (2012) (1)
Carboxyl-Terminal Domain of DHPR β1A is Essential for DHPR Tetrad Formation (2013) (1)
Protein interactions within calcium release units of muscle. (2004) (1)
Ca2+ entry units in a superfast fish muscle (2022) (1)
Abstract 796: Reduction of Cardiac Calsequestrin Increases Sarcoplasmic Reticulum Ca2+-Leak Independent of Luminal Ca2+and Triggers Ventricular Arrhythmias in Mice (2007) (1)
Mice expressing T4826I-RYR1 are viable but exhibit sex- and genotype-dependent susceptibility to malignant hyperthermia and muscle damage (The FASEB Journal (2012) DOI: 10.1096/fj.11-197582) (2012) (1)
Mitochondrial Abnormalities in a Mouse CPVT Model with RyR2 Loss-Of-Function Mutation (2015) (1)
Heart Muscle: Ultrastructural Studies. Visvan Navaratnam (1989) (1)
Clues to the Formation of Cores in a Mouse Model of Malignant Hyperthermia (2009) (1)
Morphologic approaches to the study of skeletal muscle. (1983) (1)
Contribution of L496-L500-W503 Motif of DHPR-β1A Subunit to Skeletal-Type EC-Coupling (2015) (1)
The distal C terminus of the dihydropyridine receptor β1a subunit is essential for tetrad formation in skeletal muscle (2022) (1)
STUDIES OF THE TRIAD (1971) (1)
RYR-DHPR Relationships in Skeletal and Cardiac Muscles (2005) (1)
Anisotropic Diffusion of Proteins in the Sarcoplasmic Reticulum of Skeletal Muscle (2017) (1)
Sequential stages in the age-dependent gradual formation and accumulation of tubular aggregates in fast twitch muscle fibers: SERCA and calsequestrin involvement (2011) (0)
To Face or Not to Face: Relationship of IP3 Receptors and Mitochondria in Purkinje Fibers of Cerebellum (2020) (0)
The Cytoplasmic Domain of the RyR1 Foot is Sufficient for DHPR (Cav1.1) Organization into Tetrads (2013) (0)
The Calcium Storage and Release Complex of jSR (2007) (0)
Rad is an Agent of Skeletal Muscle Atrophy (2016) (0)
Isometrically contracting insect asynchronous flight muscle quick frozen after a length step (2010) (0)
Variable negative staining patterns of halobacterium cell envelopes (1987) (0)
Development / Plasticity / Repair In Vivo Nerve – Macrophage Interactions Following Peripheral Nerve Injury (2012) (0)
Carrying Ions: Lucky Choices: The Story of My Life in Science: by Jens Christian Skou: Denmark University Press, Copenhagen, Denmark, 2016. (2017) (0)
Malignant Hyperthermia Susceptibility Mutation Cav1.1 R174W Dramatically Alters RyR1 Single Channel Function (2015) (0)
The location of InsP3 receptors in Purkinje cells of murine cerebellum does not supports a direct interaction in the transfer of calcium ions between ER and mitochondria (2021) (0)
The Binding Interactions that Maintain the Ec Coupling Junctions in Skeletal Muscle (2019) (0)
Myosin lever arm (2009) (0)
Visualization of STIM1 and Orai1 by Electron Microscopy (2013) (0)
Carrying Ions Lucky Choices: The Story of My Life in Scienceby Jens Christian SkouDenmark University Press, Copenhagen, Denmark, 2016. (2017) (0)
A Simple Regulation of Cardiomyocyte Excitability (2015) (0)
Novel Insights into the Role of Junctate in Calcium Homeostasis: Identification of Binding Domain on the InsP3R and Cellular Localization as Determined by TIRF Microscopy (2010) (0)
ISOMETRICALLY CONTRACTING INSECT ASYNCHRONOUS FLIGHT MUSCLE (2010) (0)
Abstract 415: Sarcoplasmic Reticulum Volume Expansion in Response to Cardiac Calsequestrin Deletion Maintains Sarcoplasmic Calcium Storage and Contractile Function in Mice (2006) (0)
The Actin F352S Nemaline Myopathy Mutation Disrupts Indirect Flight Muscle Structure and Function in Drosophila (2016) (0)
Dr. Hiroaki Takekura. A tribute to a life of science (2011) (0)
SR Contribution to Calcium Cycling in Sino-Atrial Node Cells: As seen from Nanoscale Electron Microscopy and Numerical Modeling (2016) (0)
Abstract 5323: Expression of Calsequestrin D307H Mutant Protein Partially Rescues the Abnormal Calcium Handling and Ultra Structural Defects of CASQ2 Null Hearts (2008) (0)
Remodeling of the Sarcoplasmic Reticulum and T-Tubules in Cardiomyocytes Following Conditional SERCA2 Knockout (2011) (0)
Carrying Ions Lucky Choices: The Story of My Life in Science by Jens Christian Skou Denmark University Press, Copenhagen, Denmark, 2016. (2017) (0)
Calcium Channel Dysfunction in a Mutant Mouse Model of Malignant Hyperthermia(CaV1.1 R174W) (2015) (0)
Friends of Physiology: An interview with (2005) (0)
analysis of human vastus lateralis muscle ( hVLM ) from climbers after mountaineering expedition to Himalayas (0)
Electron Microscopy and Excitation-Contraction Coupling. A Tribute To L.D. Peachey (2000) (0)
Cargo-mediated dimerization of Myosin VI (2009) (0)
Dyad content is reduced in cardiac myocytes of mice with impaired calmodulin regulation of RyR2 (2015) (0)
Null Mutations for Triadin and Junctin Reveal Triadin Anchors and the Requirement for Triadin-Junctin-CASQ Complexes in Stablizing RyR Resting Leak (2012) (0)
DISCUSSION OF THE PAPER (1986) (0)
Muscular Contraction: The structure of the triad: local stimulation experiments then and now (1992) (0)
Title: Highly Extensible Skeletal Muscle in Snakes (2014) (0)
Functionally Driven Modulation of Sarcomeric Structure and Membrane Systems in the Fast Muscles of a Copepod (Gaussia princeps) (2018) (0)
Neurobiology of Disease Binge Drinking during Adolescence Reduces White Matter (2014) (0)
Triadins Modulate Intracellular Ca 2 Homeostasis but Are Not Essential for Excitation-Contraction Coupling in (2007) (0)
Time-Resolved Thin-Section Electron Microscopy/Tomography of Muscle: Limitations and Possibilities (2007) (0)
Silencing RyR3 Eliminates Parajunctional Feet and Ca Sparks in Zebra Fish Tail Myotomes (2014) (0)
The Development of Sarcoplasmic Reticulum.ByAnthony N Martonosi.Amsterdam (The Netherlands): Harwood Academic Publishers. $118.00. xiii + 618 p + 5 pl; ill.; subject index. ISBN: 90–5702–602–3. 2000. (2002) (0)
Ultrastructure of cardiac muscle in reptiles and birds: optimizing and/or reducing the probability of transmission between calcium release units (2012) (0)
Electron Microscopy of Cryo-Sectioned Skeletal Muscle by Focused ion Beam Milling (2011) (0)
A conserved interaction of the dynein light intermediate chain with dynein-dynactin effectors necessary for processivity (2018) (0)
Design Principles of Reptilian Muscles: Calcium Cycling Strategies (2016) (0)
Imaging Studies of Calsequestrin Structure in Skeletal Muscle. Effects of Calcium Release (2016) (0)
Muscle: 50 Years of Electron Microscopy (2021) (0)
Third International Symposium Biochemical and Physiological Aspects of Muscle Research (2005) (0)
Abstract 15686: Electron Tomography and Live Tissue Confocal Imaging Reveal Contrasting Ultrastructural Abnormalities in Calcium Release Units of CPVT Mouse Models Due to Calsequestrin and Ryanodine Receptor Mutations (2016) (0)
Penetration of Tracers into the Junctional Gap (2003) (0)
Abstract 15134: Myocardial Restoration of Casq2 Protein in Adult Casq2 Null Mice Reverses Myocyte Remodeling and Completely Prevents CPVT Phenotype (2013) (0)
Improved Technology for Focused-Ion-Beam Thinning of Tissue for Cryo-Electron Tomography. Application to Triad Junctions (2014) (0)
Isometrically contracting insect asynchronous flight muscle quick frozen after a quick release step (2010) (0)
Andrew Fielding Huxley (1917–2012) (2012) (0)

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