Survivance and Remembrance: A Study of Trauma and Chronotope in the Book of Gold Leaves

Kinza Sadique;  Dr. Muhammad Asif

doi:10.36902/rjsser-vol2-iss1-2021(223-231)

Survivance and Remembrance: A Study of Trauma and Chronotope in the Book of Gold Leaves

Research Journal of Social Sciences and Economics Review (RJSSER) ◽

10.36902/rjsser-vol2-iss1-2021(223-231) ◽

2021 ◽

Vol 2 (1) ◽

pp. 223-231

Author(s):

Kinza Sadique ◽

Dr. Muhammad Asif

Keyword(s):

Traditional Concept ◽

Memory And Trauma ◽

Spatio Temporal

The book of Gold leaves by Mirza Waheed aims to present the interconnectedness of memory and trauma in making the survival of an individual complicated. Memory of any incident makes it traumatic when it returns with haunted effects. Remembrance of traumatic incidents makes survival complicated by creating a distressing situation for the devastated self by switching the timeless past into the present through Bakhtin's chronotopic images of time and place. Struggle to re-memorize the event through narration is like denying the traditional concept of indescribability of trauma and narration is equal to re-live that moment and be at that place again in the memory when places turned into traumatic sites and time ceased. Time becomes circular and these sites become a referent of that devastating time according to Caruth, it is the trauma of survival rather than the death that pinches most. Waheed's book of Gold leaves is a part of Kashmiri literature, explores the struggle to gain freedom and identity through collective losses. Intriguing situations of lockdown and bombings are enough to create hollow identities. Thus Words, being semantically analyzed, heighten the trauma of survival through the Spatio-temporal spectrum.

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On Mathematical Proving

Journal of Artificial General Intelligence ◽

10.1515/jagi-2015-0007 ◽

2015 ◽

Vol 6 (1) ◽

pp. 130-149 ◽

Cited By ~ 2

Author(s):

Petros Stefaneas ◽

Ioannis M. Vandoulakis

Keyword(s):

Artificial Intelligence ◽

Mathematical Proof ◽

Point Of View ◽

Web Based ◽

Traditional Concept ◽

Starting Point ◽

Temporal Aspects ◽

Spatio Temporal ◽

Logical Representation ◽

Mathematical Proving

Abstract This paper outlines a logical representation of certain aspects of the process of mathematical proving that are important from the point of view of Artificial Intelligence. Our starting-point is the concept of proof-event or proving, introduced by Goguen, instead of the traditional concept of mathematical proof. The reason behind this choice is that in contrast to the traditional static concept of mathematical proof, proof-events are understood as processes, which enables their use in Artificial Intelligence in such contexts, in which problem-solving procedures and strategies are studied. We represent proof-events as problem-centered spatio-temporal processes by means of the language of the calculus of events, which captures adequately certain temporal aspects of proof-events (i.e. that they have history and form sequences of proof-events evolving in time). Further, we suggest a “loose” semantics for the proof-events, by means of Kolmogorov’s calculus of problems. Finally, we expose the intented interpretations for our logical model from the fields of automated theorem-proving and Web-based collective proving.

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E3 ubiquitin ligases

Essays in Biochemistry ◽

10.1042/bse0410015 ◽

2005 ◽

Vol 41 ◽

pp. 15-30 ◽

Cited By ~ 123

Author(s):

Helen C. Ardley ◽

Philip A. Robinson

Keyword(s):

Protein Complexes ◽

Loss Of Function ◽

Direct Role ◽

Cellular Processes ◽

Substrate Protein ◽

Protein Ubiquitination ◽

C Terminus ◽

Full Complement ◽

Spatio Temporal ◽

Eukaryotic Organisms

The selectivity of the ubiquitin–26 S proteasome system (UPS) for a particular substrate protein relies on the interaction between a ubiquitin-conjugating enzyme (E2, of which a cell contains relatively few) and a ubiquitin–protein ligase (E3, of which there are possibly hundreds). Post-translational modifications of the protein substrate, such as phosphorylation or hydroxylation, are often required prior to its selection. In this way, the precise spatio-temporal targeting and degradation of a given substrate can be achieved. The E3s are a large, diverse group of proteins, characterized by one of several defining motifs. These include a HECT (homologous to E6-associated protein C-terminus), RING (really interesting new gene) or U-box (a modified RING motif without the full complement of Zn2+-binding ligands) domain. Whereas HECT E3s have a direct role in catalysis during ubiquitination, RING and U-box E3s facilitate protein ubiquitination. These latter two E3 types act as adaptor-like molecules. They bring an E2 and a substrate into sufficiently close proximity to promote the substrate's ubiquitination. Although many RING-type E3s, such as MDM2 (murine double minute clone 2 oncoprotein) and c-Cbl, can apparently act alone, others are found as components of much larger multi-protein complexes, such as the anaphase-promoting complex. Taken together, these multifaceted properties and interactions enable E3s to provide a powerful, and specific, mechanism for protein clearance within all cells of eukaryotic organisms. The importance of E3s is highlighted by the number of normal cellular processes they regulate, and the number of diseases associated with their loss of function or inappropriate targeting.

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Elucidating cyclic AMP signaling in subcellular domains with optogenetic tools and fluorescent biosensors

Biochemical Society Transactions ◽

10.1042/bst20190246 ◽

2019 ◽

Vol 47 (6) ◽

pp. 1733-1747 ◽

Cited By ~ 3

Author(s):

Christina Klausen ◽

Fabian Kaiser ◽

Birthe Stüven ◽

Jan N. Hansen ◽

Dagmar Wachten

Keyword(s):

Cyclic Amp ◽

Adenosine Monophosphate ◽

Adenylyl Cyclases ◽

Temporal Precision ◽

Fluorescent Biosensors ◽

Subcellular Domains ◽

Spatio Temporal ◽

Hydrolysis Of ◽

Shed Light ◽

Cyclic Amp Signaling

The second messenger 3′,5′-cyclic nucleoside adenosine monophosphate (cAMP) plays a key role in signal transduction across prokaryotes and eukaryotes. Cyclic AMP signaling is compartmentalized into microdomains to fulfil specific functions. To define the function of cAMP within these microdomains, signaling needs to be analyzed with spatio-temporal precision. To this end, optogenetic approaches and genetically encoded fluorescent biosensors are particularly well suited. Synthesis and hydrolysis of cAMP can be directly manipulated by photoactivated adenylyl cyclases (PACs) and light-regulated phosphodiesterases (PDEs), respectively. In addition, many biosensors have been designed to spatially and temporarily resolve cAMP dynamics in the cell. This review provides an overview about optogenetic tools and biosensors to shed light on the subcellular organization of cAMP signaling.

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