scholarly article | Q13442814 |
P356 | DOI | 10.1083/JCB.114.2.263 |
P8608 | Fatcat ID | release_z3kbuwlryfddng2igj2qcq362i |
P932 | PMC publication ID | 2289080 |
P698 | PubMed publication ID | 2071673 |
P5875 | ResearchGate publication ID | 21083703 |
P2093 | author name string | C P Emerson | |
G A Hastings | |||
P2860 | cites work | Efficientin vitrosynthesis of biologically active RNA and RNA hybridization probes from plasmids containing a bacteriophage SP6 promoter | Q27861016 |
Ifm(2)2 is a myosin heavy chain allele that disrupts myofibrillar assembly only in the indirect flight muscle of Drosophila melanogaster | Q30442320 | ||
Alternative RNA splicing generates transcripts encoding a thorax-specific isoform of Drosophila melanogaster myosin heavy chain | Q30449956 | ||
Functional domains of the Drosophila melanogaster muscle myosin heavy-chain gene are encoded by alternatively spliced exons | Q30450397 | ||
Identification of the gene for fly non-muscle myosin heavy chain: Drosophila myosin heavy chains are encoded by a gene family | Q33561768 | ||
Force measurements by micromanipulation of a single actin filament by glass needles | Q34177181 | ||
Differential processing of RNA transcribed from the single-copy Drosophila myosin heavy chain gene produces four mRNAs that encode two polypeptides | Q35597523 | ||
Molecular and ultrastructural defects in a Drosophila myosin heavy chain mutant: differential effects on muscle function produced by similar thick filament abnormalities | Q36221171 | ||
Troponin of asynchronous flight muscle | Q36376057 | ||
Regulation of myosin self-assembly: phosphorylation of Dictyostelium heavy chain inhibits formation of thick filaments | Q36419052 | ||
Alternate trans splicing in Trypanosoma equiperdum: implications for splice site selection | Q36785662 | ||
The Drosophila melanogaster tropomyosin II gene produces multiple proteins by use of alternative tissue-specific promoters and alternative splicing | Q36844420 | ||
Two Drosophila melanogaster tropomyosin genes: structural and functional aspects | Q36915210 | ||
Developmental variations in the splicing pattern of transcripts from the Drosophila gene encoding myosin alkali light chain result in different carboxyl-terminal amino acid sequences | Q37674677 | ||
One motor, many tails: an expanding repertoire of force-generating enzymes | Q37850813 | ||
Molecular genetics of nematode muscle | Q38763418 | ||
Crossbridge behaviour during muscle contraction | Q39496003 | ||
Assembly processes in vertebrate skeletal thick filament formation | Q39653482 | ||
Molecular genetics of myosin | Q39664976 | ||
The cellular basis of myosin heavy chain isoform expression during development of avian skeletal muscles. | Q39666035 | ||
Myosin structure and function in cell motility | Q39683835 | ||
The contractile mechanism of insect fibrillar muscle | Q39883348 | ||
Myosin | Q40186627 | ||
C. elegans mRNAs acquire a spliced leader through a trans-splicing mechanism | Q40547108 | ||
Detection of a possibletrans-splicing intermediate inTrypanosoma brucei | Q40554576 | ||
The minor myosin heavy chain, mhcA, of Caenorhabditis elegans is necessary for the initiation of thick filament assembly | Q40820116 | ||
Physiological properties of the dorsal longitudinal flight muscle and the tergal depressor of the trochanter muscle of Drosophila melanogaster | Q41191483 | ||
Ultrastructural and molecular analyses of homozygous-viable Drosophila melanogaster muscle mutants indicate there is a complex pattern of myosin heavy-chain isoform distribution | Q41832980 | ||
Alternative myosin hinge regions are utilized in a tissue-specific fashion that correlates with muscle contraction speed | Q45267700 | ||
The indirect flight muscle of Drosophila accumulates a unique myosin alkali light chain isoform | Q47071371 | ||
Analysis of the 5' end of the Drosophila muscle myosin heavy chain gene. Alternatively spliced transcripts initiate at a single site and intron locations are conserved compared to myosin genes of other organisms | Q48340204 | ||
Complete nucleotide and encoded amino acid sequence of a mammalian myosin heavy chain gene. Evidence against intron-dependent evolution of the rod. | Q48361560 | ||
A nonsense mutation within the act88F actin gene disrupts myofibril formation in Drosophila indirect flight muscles | Q48386984 | ||
Drosophila muscle myosin heavy chain encoded by a single gene in a cluster of muscle mutations | Q48399570 | ||
Tissue-specific expression of the 79B actin gene during Drosophila development. | Q52246292 | ||
Tissue-specific expression of the alternately processed Drosophila myosin heavy-chain messenger RNAs. | Q52452486 | ||
Arthrin, a myofibrillar protein of insect flight muscle, is an actin-ubiquitin conjugate. | Q52455667 | ||
Myosin heavy-chain mutations that disrupt Caenorhabditis elegans thick filament assembly. | Q52491221 | ||
Drosophila has one myosin heavy-chain gene with three developmentally regulated transcripts. | Q52519868 | ||
Cell lineage of the thoracic muscles of Drosophila. | Q52531015 | ||
Myosin subfragment-1 is sufficient to move actin filaments in vitro | Q59053550 | ||
Molecular analysis of the unc-54 myosin heavy-chain gene of Caenorhabditis elegans | Q59065638 | ||
Functions of the myosin ATP and actin binding sites are required for C. elegans thick filament assembly | Q68408565 | ||
Local melting in the subfragment-2 region of myosin in activated muscle and its correlation with contractile force | Q68809644 | ||
Temperature-dependence of local melting in the myosin subfragment-2 region of the rigor cross-bridge | Q68917994 | ||
Movement of myosin fragments in vitro: domains involved in force production | Q68942569 | ||
Localisation of light chain and actin binding sites on myosin | Q69661816 | ||
Transcripts of the six Drosophila actin genes accumulate in a stage- and tissue-specific manner | Q70493084 | ||
The sequence of the NH2-terminal 204-residue fragment of the heavy chain of rabbit skeletal muscle myosin | Q71070903 | ||
Actin-myosin interaction: the role of myosin in determining the actin pattern in self-assembled 'hybrid' contractile units | Q71177929 | ||
Isolation of Drosophila flightless mutants which affect myofibrillar proteins of indirect flight muscle | Q71591491 | ||
Mapping of actin-binding sites on the heavy chain of myosin subfragment 1 | Q71731405 | ||
The actin genes of Drosophila: a dispersed multigene family | Q72844519 | ||
Sequence analysis of mutations that affect the synthesis, assembly and enzymatic activity of the unc-54 myosin heavy chain of Caenorhabditis elegans | Q93597580 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Drosophila | Q312154 |
P304 | page(s) | 263-276 | |
P577 | publication date | 1991-07-01 | |
P1433 | published in | Journal of Cell Biology | Q1524550 |
P1476 | title | Myosin functional domains encoded by alternative exons are expressed in specific thoracic muscles of Drosophila | |
P478 | volume | 114 |
Q52546042 | A non-flight muscle isoform of Drosophila tropomyosin rescues an indirect flight muscle tropomyosin mutant. |
Q36083020 | A variable domain near the ATP-binding site in Drosophila muscle myosin is part of the communication pathway between the nucleotide and actin-binding sites. |
Q37265530 | Alternative S2 hinge regions of the myosin rod affect myofibrillar structure and myosin kinetics. |
Q35973522 | Alternative S2 hinge regions of the myosin rod differentially affect muscle function, myofibril dimensions and myosin tail length. |
Q31778397 | Alternative exon-encoded regions of Drosophila myosin heavy chain modulate ATPase rates and actin sliding velocity. |
Q35782911 | Alternative relay and converter domains tune native muscle myosin isoform function in Drosophila. |
Q36861134 | Alternative relay domains of Drosophila melanogaster myosin differentially affect ATPase activity, in vitro motility, myofibril structure and muscle function |
Q34452473 | An alternative domain near the ATP binding pocket of Drosophila myosin affects muscle fiber kinetics |
Q46811855 | Calcineurin function is required for myofilament formation and troponin I isoform transition in Drosophila indirect flight muscle |
Q47072871 | Contribution of myosin rod protein to the structural organization of adult and embryonic muscles in Drosophila |
Q34040305 | Determining structure/function relationships for sarcomeric myosin heavy chain by genetic and transgenic manipulation of Drosophila |
Q48038748 | Differential muscle-type expression of the Drosophila troponin T gene. A 3-base pair microexon is involved in visceral and adult hypodermic muscle specification |
Q43588049 | Drosophila melanogaster paramyosin: developmental pattern, mapping and properties deduced from its complete coding sequence |
Q73079696 | Human skeletal myosin heavy chain genes are tightly linked in the order embryonic-IIa-IId/x-ILb-perinatal-extraocular |
Q30980980 | Identification and analysis of the myosin superfamily in Drosophila: a database approach |
Q36178999 | Invertebrate muscles: muscle specific genes and proteins |
Q44761193 | Isolation and kinetic characterisation of myosin and myosin S1 from the Drosophila indirect flight muscles. |
Q44594103 | Kinetic analysis of Drosophila muscle myosin isoforms suggests a novel mode of mechanochemical coupling |
Q48074069 | Minor-myosin, a novel myosin isoform synthesized preferentially in Drosophila testis is encoded by the muscle myosin heavy chain gene |
Q34125076 | Modular organization of phylogenetically conserved domains controlling developmental regulation of the human skeletal myosin heavy chain gene family |
Q33987018 | Mutating the converter-relay interface of Drosophila myosin perturbs ATPase activity, actin motility, myofibril stability and flight ability |
Q35907333 | Myosin heavy chain isoforms regulate muscle function but not myofibril assembly |
Q34611611 | Positive and negative intronic regulatory elements control muscle-specific alternative exon splicing of Drosophila myosin heavy chain transcripts. |
Q26996484 | Regulated functional alternative splicing in Drosophila |
Q43219953 | Similarities and differences between frozen-hydrated, rigor acto-S1 complexes of insect flight and chicken skeletal muscles |
Q32079160 | Spatially and temporally regulated expression of myosin heavy chain alternative exons during Drosophila embryogenesis. |
Q36288309 | Specific myosin heavy chain mutations suppress troponin I defects in Drosophila muscles |
Q33970953 | Splice-junction elements and intronic sequences regulate alternative splicing of the Drosophila myosin heavy chain gene transcript. |
Q46790810 | Stretchin-klp, a novel Drosophila indirect flight muscle protein, has both myosin dependent and independent isoforms |
Q33185427 | The converter domain modulates kinetic properties of Drosophila myosin |
Q33551387 | The evolutionarily conserved RNA binding protein SMOOTH is essential for maintaining normal muscle function |
Q34150831 | The iStem, a long-range RNA secondary structure element required for efficient exon inclusion in the Drosophila Dscam pre-mRNA. |
Q40434881 | The myosin superfamily in Drosophila melanogaster |
Q34606142 | The role of evolutionarily conserved sequences in alternative splicing at the 3' end of Drosophila melanogaster myosin heavy chain RNA |
Q36029723 | Transcriptional regulation of the Drosophila melanogaster muscle myosin heavy-chain gene |
Q36234557 | Transformation of Drosophila melanogaster with the wild-type myosin heavy-chain gene: rescue of mutant phenotypes and analysis of defects caused by overexpression |
Q30445996 | Transposable element insertions respecify alternative exon splicing in three Drosophila myosin heavy chain mutants. |
Q44329034 | Variable N-terminal regions of muscle myosin heavy chain modulate ATPase rate and actin sliding velocity |
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