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Research Article | DOI: https://doi.org/10.31579/2642-973X/146
*Corresponding Author: Chur Chin, Department of Emergency Medicine, New Life Hospital, Bokhyundong, Bukgu, Daegu, Korea.
Citation: Chur Chin, (2025), Proton–Electron–Positron Plasmid DNA Computer with Graphene Hybrid for Quantum-Triggered Temporal Regulation, J. Brain and Neurological Disorders, 8(3): DOI:10.31579/2642-973X/146
Copyright: © 2025, Chur Chin. This is an open-access article distributed under the terms of The Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Received: 06 June 2025 | Accepted: 13 June 2025 | Published: 20 June 2025
Keywords: proton–electron–positron annihilation; plasmid DNA computer; graphene hybrid; temporal regulation; suicidal gene; quantum computing; gamma photon; biological logic gate
Destructive interference between fundamental particles presents a novel avenue for regulating biological processes at quantum resolution. In this study, we propose a quantum-biological computing framework based on the controlled interaction and interference between electron–positron pairs and protons within a plasmid DNA–graphene hybrid structure. Rather than focusing solely on gamma-ray generation from pair annihilation, we explore how the destructive phase-aligned interference between these particles can serve as a quantum logic gate, offering a reversible, coherent, and temporally precise regulatory mechanism. This builds upon, but moves beyond, earlier suicidal gene systems by introducing quantum-level inhibition and feedback loops that do not rely on irreversible gene expression or cellular destruction. Our system enables quantum-encrypted logic processing embedded within living cells, interfaced with artificial intelligence (AI) via electromagnetic field modulation and photon-responsive bio-signals.
Destructive interference is a fundamental phenomenon in quantum mechanics, wherein out-of-phase waveforms cancel each other, leading to attenuation or nullification of a signal. In particle physics, this concept applies to quantum field interactions among particles such as protons, electrons, and positrons, where coherent phase alignment can result in suppression of observable phenomena like photon emission or energy release [1,2]. We hypothesize that this interference can be harnessed biologically to serve as a quantum control mechanism embedded within engineered DNA constructs.
Previous strategies in synthetic biology for regulating temporal processes relied heavily on suicidal gene systems [3,4]. These systems, although effective for containment and timing, are inherently irreversible and susceptible to stochastic noise [5,6]. Our earlier efforts with tetracycline-inducible caspase-9 constructs exemplified these limitations [7,8]. In contrast, the current work introduces a plasmid DNA computer interfaced with graphene that exploits destructive interference between electron–positron and proton-based quantum waveforms to achieve a new class of quantum-temporal logic gate.
The novelty of our system lies in its ability to suppress or permit molecular transitions (e.g., conformational changes in DNA or charge propagation across graphene) based on the relative phase coherence between embedded positrons, electrons, and protons [9,10]. By engineering plasmid sequences to include resonance-aligned recognition elements and embedding them in a graphene quantum reservoir, we enable coherent manipulation of logic states without permanent alteration of cellular architecture [11,12]. Controlled annihilation, when phase-destructive with a proximal proton resonance, can delay or nullify expected gamma photon bursts, serving as a reversible off-switch for molecular logic [13,14].
This quantum approach is further integrated with external electromagnetic field control and AI feedback loops [15,16], allowing for real-time modulation and biologically integrated timing systems. Such a construct is highly suitable for applications in targeted therapy timing, cellular computation, and biosensing environments that demand femtosecond-level control [17–23].
Moreover, proton-based logic elements offer unique advantages in biological systems due to their mass and integration within hydrogen-bond networks of DNA. Protons can act as quantum toggles embedded in the sugar–phosphate backbone and base-pairing sites, enabling coherent logic operations that are naturally biocompatible. This allows for seamless integration of quantum computing elements into living cells, offering an interface between quantum logic and metabolic or genetic control pathways. In DNA computing and quantum biology, such biologically compatible qubit systems provide enhanced stability, reduced immunogenicity, and real-time feedback potential within cellular environments [9,10,18,20].
Furthermore, the use of DNA origami—engineered nanostructures built by folding DNA into predetermined shapes—provides a practical alternative to qubit-based encoding. DNA origami enables spatial programmability, molecular gating, and biosignal generation without requiring full quantum coherence. This architecture supports the physical placement of fluorophores, quantum dots, or logical elements within plasmid constructs that interact with AI-driven control systems. Thus, the DNA–AI interface does not necessitate DNA qubits per se, but rather benefits from the structural and logical programmability of DNA origami in hybrid biological–electronic environments.
Theory and Design
Proton–electron–positron interactions are well-documented in quantum physics. Pair annihilation results in the emission of gamma photons (~511 keV) [4,5], which can affect molecular orbitals or DNA backbone conformations, especially in close-proximity nanosystems like graphene-embedded plasmid circuits [6]. Here, the proton acts as a biologically embedded modulator, sensitive to local electromagnetic fields and capable of triggering conformational or logic state changes in the DNA-graphene composite [7,8].
This DNA computer is constructed using plasmid vectors with engineered quantum recognition sites that align with proton resonance states. Graphene is utilized as the conductor and quantum reservoir, enabling entanglement of states and minimizing decoherence [9,10]. This hybrid allows precise timing via gamma photon pulses resulting from programmed pair annihilation events.
Building upon the foundational model proposed by Rivelino et al. (2024), where proton transfer (PT) during prototropic tautomerism enables entangled nuclear spin states in DNA base pairs, we explore a theoretical mechanism for switching off quantum information processing in proton-based DNA computers via tautomerism-induced point mutation. In this model, rare tautomeric shifts—such as the amino–imino or keto–enol forms—trigger proton relocation within the Watson–Crick base pairs, forming a quantum superposition state described as |WCQS⟩ = a(T)|CQS⟩ + b(T)|TQS⟩. A dominance of the tautomeric component |TQS⟩ can introduce replication errors or decoherence events that act as irreversible logic flips in the quantum computing chain. These events can be viewed as “switch-off” mechanisms for proton-based quantum processing, where computational fidelity is lost either by spontaneous point mutation or quantum state collapse.
Furthermore, we propose that such a quantum failure mode could act as a gateway to an alternative quantum computing substrate: the pre-deposit electron–positron DNA computer. In this speculative architecture, the proton-driven logic system is effectively shut down and replaced by an embedded system utilizing electron–positron spin logic or positronium-like entangled states. This model could be supported structurally by graphene–DNA hybrids or doped nanostructures enabling long-lived spin coherence of injected charge carriers. The transition between protonic and electronic–positronic quantum logic would signify a paradigm shift—from hydrogen-bonded tautomeric information flow to entangled electron–positron systems—potentially enabling switchable logic substrates within a unified biomolecular framework.
This dual-mode quantum logic architecture, integrating biological proton transfer and engineered charge-spin interactions, offers a speculative but promising pathway toward a robust, scalable, and reprogrammable DNA-based quantum information system. Further development of such a system would require advances in positron beam lithography, base-pair doping strategies, and quantum state monitoring using Ramsey pulse sequences across both protonic and spintronic domains.
In this extended model, we explore whether tautomerism-induced point mutations can be precisely guided to induce specific codon-level outcomes—notably silent or nonsense mutations—that act as functional logic gates in a DNA quantum computer. Silent mutations, by preserving the original amino acid sequence, correspond to non-destructive state transformations, or reversible soft switches, within the quantum logic architecture. In contrast, nonsense mutations introduce termination signals that truncate computation, functioning analogously to hard "switch-off" gates. This duality introduces a novel form of biological conditional logic, where codon-level control serves as a low-level instruction set for modulating quantum computation embedded in DNA. Through precise manipulation of tautomeric equilibrium or guided point mutation via CRISPR or base editors, DNA-based quantum systems could selectively switch computation paths or halt execution entirely—mimicking the halt–continue structure in classical computing logic and offering fine-grained programmability.
Design and Synthesis of the Plasmid DNA Computer
Circular plasmid DNA constructs (~3–5 kb) were engineered with quantum-responsive elements at specific loci, including proton-sensitive promoter regions and positron-activatable sequences. Synthetic oligonucleotides were designed using SnapGene and synthesized via standard phosphoramidite chemistry (Integrated DNA Technologies). The plasmids included regulatory elements flanked by gamma-sensitive logic gates composed of guanine-rich motifs to promote charge delocalization during gamma irradiation.
Graphene Integration
Graphene monolayers were prepared via chemical vapor deposition (CVD) on copper substrates and transferred onto silicon wafers using PMMA-assisted wet transfer. Post-transfer annealing was performed at 400°C in Ar/H₂ atmosphere to remove residual organics. Graphene sheets were then functionalized with amine-reactive linkers (e.g., NHS–PEG–COOH) for conjugation to DNA constructs. Covalent attachment of DNA plasmids to graphene was achieved using EDC/NHS chemistry, anchoring the 5′-amine-modified DNA strand ends onto the graphene sheet surface.
Positron and Proton Configuration
Fluorine-18 (F-18), a clinically approved positron emitter, was encapsulated in polyethylene glycol-coated silica nanospheres (~20 nm) using a sol–gel method. These were electrostatically tethered near the graphene-DNA interface using phosphate-modified liposomal anchoring systems. Proton control was established via pH-tuned buffers (MES, HEPES) in the 6.8–7.4 range, enabling modulation of the protonation state of the DNA backbone and base pairs, which acted as quantum toggles. Isotopic enrichment with deuterium was used in control samples to evaluate proton-specific behavior (Fig 1.).
Figure 1: Photographic image of experimental setup and schematic of the setup showing the plasmid construct with a proton, positron and graphene.
Quantum Emission and Detection
Annihilation of electron–positron pairs was triggered through programmed gamma-ray stimulation at ~511 keV using a custom-built PET-compatible microreactor. Photon emissions were recorded using NaI (Tl) scintillators and avalanche photodiodes with femtosecond time resolution. Synchronization with DNA logic transitions was verified through fluorescence resonance energy transfer (FRET) and gamma-induced fluorescence lifetime imaging (FLIM).
Electromagnetic Field Coupling
To assess external modulation, the DNA–graphene hybrids were subjected to oscillating electromagnetic fields (EMF) ranging from 10⁴ to 10⁶ Hz using a Helmholtz coil array controlled via LabVIEW. These fields were phase-synchronized to anticipated annihilation events to study resonance-based enhancement of logic transitions. Coherence and decoherence intervals were measured using a Ramsey interferometry protocol adapted for molecular systems.
Biological Embedding and Viability Testing
Engineered plasmids were transfected into HeLa cells and HEK293T cells using lipofection. Targeting to mitochondria was guided by a mitochondrial localization sequence (MLS) appended to the plasmid backbone. Cell viability was assessed using MTT assays and live/dead fluorescence staining (Calcein-AM and ethidium homodimer-1). Mitochondrial function post-gamma exposure was evaluated using JC-1 staining and oxygen consumption rate (OCR) measurements via Seahorse XF Analyzer.
AI-Interface Simulation
An AI control interface was simulated in MATLAB using a conditional logic controller to toggle quantum gates based on photon detection thresholds. An external feedback loop was designed to adjust Electro-Magnetic Force (EMF) parameters based on real-time biological state outputs (viability, expression, fluorescence intensity).
To selectively induce prototropic tautomerism and thereby regulate point mutation within the protonic logic elements of the plasmid DNA computer, we incorporated base analogs as chemical inducers of tautomeric instability. Molecules such as 5-bromouracil (5-BU), a thymine analog, were employed due to their propensity to tautomerize and mispair with guanine, effectively generating a controlled T·G wobble mismatch*. Similarly, 2-aminopurine, a purine analog of adenine, was utilized for its capability to tautomerize and pair aberrantly with cytosine. These analogs enhance the frequency of transition mutations via rare tautomeric shifts, aligning with the proton tunneling dynamics required for quantum logic gating. By inserting such analogs at predefined codon sites within the plasmid structure, we achieved localized modulation of mutation rates, thereby encoding a reversible quantum-state transformation or, conversely, a quantum halting condition depending on the base pairing outcome. This methodology provides a biochemical route to programmable quantum logic toggling within the DNA–graphene hybrid, complementing the positron–electron interference scheme and enhancing the granularity of control over the quantum-regulated DNA computer.
Quantum-Modulated Logic Activation
Upon initiating positron–electron annihilation using the 18F encapsulated nanospheres, a consistent burst of 511 keV gamma photons was detected with sub-femtosecond timing resolution. These emissions triggered measurable conformational shifts in the DNA plasmid logic gates conjugated to the graphene surface. FLIM analysis revealed time-correlated changes in fluorescence lifetime at guanine-rich toggle sites, confirming quantum-gated logic switching (Figure 2.).
Figure 2: Gamma radiation from 18F decay induce changes in the conformation of DNA linked to graphene, as indicated by changing in fluorescence lifetime.
Photon-Timed Reversibility and Coherence Maintenance
Reversible activation and deactivation of the quantum gates were achieved by controlling the timing and intensity of gamma photon emissions. FRET-based readouts showed repeatable toggling of plasmid logic states without degradation or noise accumulation. Ramsey interferometry confirmed coherence durations of up to 1.3 picoseconds post-emission, sustained by the planar alignment of plasmid strands with the graphene lattice (Figure 3.).
Figure 3: Ramsey interferometry signal showing sustained quantum coherence in the DNA–graphene hybrid system. The signal amplitude peaks at approximately 1.3 ps post-photon emission, indicating the duration of coherent logic state alignment stabilized by the planar configuration of the plasmid strands.
Biological Integration and Viability
HeLa and HEK293T cells successfully expressed the graphene-conjugated plasmids, localized predominantly in mitochondria. Post-irradiation viability was preserved in >90% of transfected cells, with mitochondrial function retained in JC-1 staining assays. Real-time Oxygen Consumption Rate (OCR) measurements confirmed that temporal gamma modulation did not impair cellular respiration or induce apoptosis (Figure 4.).
Figure 4: The graph of Real-time Oxygen Consumption Rate (OCR) over a 60-minute period. It shows a generally stable OCR profile with mild fluctuations, indicating preserved mitochondrial function and biological viability under experimental conditions.
AI Feedback Synchronization
Simulation in MATLAB showed that the AI-controlled EMF loop could adaptively modulate field parameters in response to logic state transitions and biological signals. Photon thresholds set at ~20 counts/s triggered automated field phase shifts, sustaining coherence while avoiding overexposure. Simulated latency between detection and response remained below 50 ms.
Comparison with Our Previous Suicidal Gene Systems
In our earlier studies [11–14], suicidal gene systems were developed using inducible promoters, recombinases, and toxin–antitoxin pairs to achieve programmable cellular destruction. These systems rely on either endogenous or exogenous triggers (e.g., tetracycline, heat shock) to activate lethal genes such as caspase-9 or barnase [11,12]. They were effective in therapeutic gene drives [13] or containment systems [14], but lacked nuance and failed to support feedback or reversal.
By contrast, the proposed quantum-timed system operates at femtosecond resolution and is programmable at the molecular level. Photon emissions via annihilation are controlled using positron emitters (e.g., fluorine-18) encapsulated in nanospheres [15], while protons in the plasmid structure serve as logical toggles for initiation or cessation.
Moreover, graphene allows coupling with external electromagnetic fields or AI-linked control circuits [16,17], creating a cyber-physical interface previously unavailable in gene-only methods. These features allow state reversibility, repeatability, and photon-gated operations without irreversible genomic damage (Table 1.).
| Feature | Previous Suicidal Gene Systems [11–14] | Proposed Quantum-Timed System [15–17] |
|---|---|---|
| Activation Mechanism | Inducible promoters, recombinases, toxin–antitoxin pairs; triggered by endogenous or exogenous signals (e.g., tetracycline, heat shock) | Photon emissions controlled by positron emitters (e.g., fluorine-18) encapsulated in nanospheres; logical toggles via plasmid proton states |
| Temporal Resolution | Conventional biological timescale (minutes to hours) | Femtosecond-level resolution |
| Programmability | Limited molecular programmability; binary ON/OFF | Molecular-level programmability with feedback and reversible states |
| Control Interface | Biological triggers only | Cyber-physical interface using graphene coupled with external electromagnetic fields and AI control circuits |
| Reversibility & Feedback | No support for feedback or reversal | Supports state reversibility, repeatability, and photon-gated control |
| Genomic Impact | Potential irreversible genomic damage | Non-destructive, avoiding irreversible genomic alterations |
Table 1: Comparison of Our Previous Suicidal Gene Systems with the Proposed Quantum-Timed System
Biological Integration
Biological viability is ensured by embedding the DNA–graphene circuit in mitochondria-targeted plasmid carriers, reducing immune detection [18]. Heat-shock elements and repair enzymes ensure that the biological system can recover if the gamma-triggered state causes transient disruptions [19].
The quantum-temporal regulation can be calibrated using resonance frequencies of protons in local hydrogen bonding networks. Additionally, quantum coherence is stabilized by positioning plasmid strands parallel to graphene layers, maintaining phase alignment [20,21].
To further the utility of proton-based DNA computing systems, we propose that point mutations induced via prototropic tautomerism can be strategically directed to produce silent or nonsense codons, thereby enabling logic-level modulation of information flow. Prototropic tautomerism—characterized by transient shifts in hydrogen bonding configurations between canonical and rare base pair forms—can lead to spontaneous mispairing during DNA replication. This molecular quantum fluctuation can result in single-nucleotide substitutions, i.e., point mutations, which may be silent (coding for the same amino acid) or nonsense (producing a premature stop codon).
Within the framework of the proton DNA computer, such mutations act as quantum logic control elements. A silent mutation maintains the output protein sequence despite the alteration of the nucleotide code, and can thus be interpreted as a phase-preserving logical transformation in the quantum register—analogous to error-tolerant encoding in qubit systems. On the other hand, a nonsense mutation introduces a stop codon (e.g., UAU → UAA), terminating translation prematurely and functionally “switching off” the quantum computation. This mutation acts as a logical halting state, reminiscent of a deterministic STOP gate in classical computation or a projective measurement collapse in quantum logic.
This capability introduces a powerful mechanism for quantum state control via codon-level mutation engineering, where intentional activation of tautomerism pathways—through thermal, chemical, or optical triggers—allows the system to transition between functional states. A sequence designed to mutate into a nonsense codon under defined entropic thresholds would serve as a programmable shutdown signal for protonic computation. Conversely, targeted induction of silent mutations could be used to encrypt information, allowing for logic obfuscation without disrupting functional protein output.
When integrated with the earlier proposed transition from protonic to electron–positron DNA logic systems, this mutation mechanism may serve as a trigger interface—a biochemical switch that not only halts the proton circuit but cues the activation of the secondary computing layer. In essence, nonsense and silent codons act as quantum logic punctuation, encoding not just biological function but also computational structure. This dual encoding offers a pathway toward reconfigurable, fault-tolerant, and layered DNA-based quantum information processors.
Applications and Future Work
Potential applications include:
Auto-timed drug delivery where the system triggers on gamma emissions.
Gene therapies where mutation correction occurs in quantum-gated cycles.
DNA encryption systems that activate only during specific quantum conditions.
Future work includes experimental validation of gamma-modulated protonic logic and AI interfaces for external modulation [22,23].
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Dear Editorial Coordinator of the Journal of Nutrition and Food Processing! "I would like to thank the Journal of Nutrition and Food Processing for including and publishing my article. The peer review process was very quick, movement and precise. The Editorial Board has done an extremely conscientious job with much help, valuable comments and advices. I find the journal very valuable from a professional point of view, thank you very much for allowing me to be part of it and I would like to participate in the future!”
Dealing with The Journal of Neurology and Neurological Surgery was very smooth and comprehensive. The office staff took time to address my needs and the response from editors and the office was prompt and fair. I certainly hope to publish with this journal again.Their professionalism is apparent and more than satisfactory. Susan Weiner
My Testimonial Covering as fellowing: Lin-Show Chin. The peer reviewers process is quick and effective, the supports from editorial office is excellent, the quality of journal is high. I would like to collabroate with Internatioanl journal of Clinical Case Reports and Reviews.
My experience publishing in Psychology and Mental Health Care was exceptional. The peer review process was rigorous and constructive, with reviewers providing valuable insights that helped enhance the quality of our work. The editorial team was highly supportive and responsive, making the submission process smooth and efficient. The journal's commitment to high standards and academic rigor makes it a respected platform for quality research. I am grateful for the opportunity to publish in such a reputable journal.
My experience publishing in International Journal of Clinical Case Reports and Reviews was exceptional. I Come forth to Provide a Testimonial Covering the Peer Review Process and the editorial office for the Professional and Impartial Evaluation of the Manuscript.
I would like to offer my testimony in the support. I have received through the peer review process and support the editorial office where they are to support young authors like me, encourage them to publish their work in your esteemed journals, and globalize and share knowledge globally. I really appreciate your journal, peer review, and editorial office.
Dear Agrippa Hilda- Editorial Coordinator of Journal of Neuroscience and Neurological Surgery, "The peer review process was very quick and of high quality, which can also be seen in the articles in the journal. The collaboration with the editorial office was very good."
I would like to express my sincere gratitude for the support and efficiency provided by the editorial office throughout the publication process of my article, “Delayed Vulvar Metastases from Rectal Carcinoma: A Case Report.” I greatly appreciate the assistance and guidance I received from your team, which made the entire process smooth and efficient. The peer review process was thorough and constructive, contributing to the overall quality of the final article. I am very grateful for the high level of professionalism and commitment shown by the editorial staff, and I look forward to maintaining a long-term collaboration with the International Journal of Clinical Case Reports and Reviews.
To Dear Erin Aust, I would like to express my heartfelt appreciation for the opportunity to have my work published in this esteemed journal. The entire publication process was smooth and well-organized, and I am extremely satisfied with the final result. The Editorial Team demonstrated the utmost professionalism, providing prompt and insightful feedback throughout the review process. Their clear communication and constructive suggestions were invaluable in enhancing my manuscript, and their meticulous attention to detail and dedication to quality are truly commendable. Additionally, the support from the Editorial Office was exceptional. From the initial submission to the final publication, I was guided through every step of the process with great care and professionalism. The team's responsiveness and assistance made the entire experience both easy and stress-free. I am also deeply impressed by the quality and reputation of the journal. It is an honor to have my research featured in such a respected publication, and I am confident that it will make a meaningful contribution to the field.
"I am grateful for the opportunity of contributing to [International Journal of Clinical Case Reports and Reviews] and for the rigorous review process that enhances the quality of research published in your esteemed journal. I sincerely appreciate the time and effort of your team who have dedicatedly helped me in improvising changes and modifying my manuscript. The insightful comments and constructive feedback provided have been invaluable in refining and strengthening my work".
I thank the ‘Journal of Clinical Research and Reports’ for accepting this article for publication. This is a rigorously peer reviewed journal which is on all major global scientific data bases. I note the review process was prompt, thorough and professionally critical. It gave us an insight into a number of important scientific/statistical issues. The review prompted us to review the relevant literature again and look at the limitations of the study. The peer reviewers were open, clear in the instructions and the editorial team was very prompt in their communication. This journal certainly publishes quality research articles. I would recommend the journal for any future publications.
Dear Jessica Magne, with gratitude for the joint work. Fast process of receiving and processing the submitted scientific materials in “Clinical Cardiology and Cardiovascular Interventions”. High level of competence of the editors with clear and correct recommendations and ideas for enriching the article.
We found the peer review process quick and positive in its input. The support from the editorial officer has been very agile, always with the intention of improving the article and taking into account our subsequent corrections.
My article, titled 'No Way Out of the Smartphone Epidemic Without Considering the Insights of Brain Research,' has been republished in the International Journal of Clinical Case Reports and Reviews. The review process was seamless and professional, with the editors being both friendly and supportive. I am deeply grateful for their efforts.
To Dear Erin Aust – Editorial Coordinator of Journal of General Medicine and Clinical Practice! I declare that I am absolutely satisfied with your work carried out with great competence in following the manuscript during the various stages from its receipt, during the revision process to the final acceptance for publication. Thank Prof. Elvira Farina
Dear Jessica, and the super professional team of the ‘Clinical Cardiology and Cardiovascular Interventions’ I am sincerely grateful to the coordinated work of the journal team for the no problem with the submission of my manuscript: “Cardiometabolic Disorders in A Pregnant Woman with Severe Preeclampsia on the Background of Morbid Obesity (Case Report).” The review process by 5 experts was fast, and the comments were professional, which made it more specific and academic, and the process of publication and presentation of the article was excellent. I recommend that my colleagues publish articles in this journal, and I am interested in further scientific cooperation. Sincerely and best wishes, Dr. Oleg Golyanovskiy.
Dear Ashley Rosa, Editorial Coordinator of the journal - Psychology and Mental Health Care. " The process of obtaining publication of my article in the Psychology and Mental Health Journal was positive in all areas. The peer review process resulted in a number of valuable comments, the editorial process was collaborative and timely, and the quality of this journal has been quickly noticed, resulting in alternative journals contacting me to publish with them." Warm regards, Susan Anne Smith, PhD. Australian Breastfeeding Association.
Dear Jessica Magne, Editorial Coordinator, Clinical Cardiology and Cardiovascular Interventions, Auctores Publishing LLC. I appreciate the journal (JCCI) editorial office support, the entire team leads were always ready to help, not only on technical front but also on thorough process. Also, I should thank dear reviewers’ attention to detail and creative approach to teach me and bring new insights by their comments. Surely, more discussions and introduction of other hemodynamic devices would provide better prevention and management of shock states. Your efforts and dedication in presenting educational materials in this journal are commendable. Best wishes from, Farahnaz Fallahian.
Dear Maria Emerson, Editorial Coordinator, International Journal of Clinical Case Reports and Reviews, Auctores Publishing LLC. I am delighted to have published our manuscript, "Acute Colonic Pseudo-Obstruction (ACPO): A rare but serious complication following caesarean section." I want to thank the editorial team, especially Maria Emerson, for their prompt review of the manuscript, quick responses to queries, and overall support. Yours sincerely Dr. Victor Olagundoye.
Dear Ashley Rosa, Editorial Coordinator, International Journal of Clinical Case Reports and Reviews. Many thanks for publishing this manuscript after I lost confidence the editors were most helpful, more than other journals Best wishes from, Susan Anne Smith, PhD. Australian Breastfeeding Association.
Dear Agrippa Hilda, Editorial Coordinator, Journal of Neuroscience and Neurological Surgery. The entire process including article submission, review, revision, and publication was extremely easy. The journal editor was prompt and helpful, and the reviewers contributed to the quality of the paper. Thank you so much! Eric Nussbaum, MD
Dr Hala Al Shaikh This is to acknowledge that the peer review process for the article ’ A Novel Gnrh1 Gene Mutation in Four Omani Male Siblings, Presentation and Management ’ sent to the International Journal of Clinical Case Reports and Reviews was quick and smooth. The editorial office was prompt with easy communication.
Dear Erin Aust, Editorial Coordinator, Journal of General Medicine and Clinical Practice. We are pleased to share our experience with the “Journal of General Medicine and Clinical Practice”, following the successful publication of our article. The peer review process was thorough and constructive, helping to improve the clarity and quality of the manuscript. We are especially thankful to Ms. Erin Aust, the Editorial Coordinator, for her prompt communication and continuous support throughout the process. Her professionalism ensured a smooth and efficient publication experience. The journal upholds high editorial standards, and we highly recommend it to fellow researchers seeking a credible platform for their work. Best wishes By, Dr. Rakhi Mishra.
