Metadata

Description

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# LIT-REVIEW TOPIC TASK — READ THIS PREAMBLE BEFORE ANYTHING ELSE
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#
# PRIOR-RUN FAILURE WARNING.
#   In the previous fanout, 12 of 14 agents reported `wg done` in 30-60s
#   WITHOUT writing or committing any output file. Their evaluation scores
#   ranged 0.02-0.17. They cached the brief, generated ~1.6k tokens of
#   output (probably just a "plan"), and exited. DO NOT BE THAT AGENT.
#
# YOUR JOB IS TO PRODUCE TWO COMMITTED FILES, NOT A PLAN TO PRODUCE THEM.
#   The deliverables are *file content on disk*. If you have not written
#   1500+ words to the .md file and 10+ entries to the .bib file, you are
#   not done — regardless of how thoroughly you have "thought about" the
#   topic.
#
# REQUIRED STEP ORDER. Do these in this exact sequence:
#
#   STEP 1 — orient (~3 min):
#     - Read paper_prep/synthesis/ABSTRACT_nature.md (if present) or
#       ABSTRACT_BoG.md (fallback). This is the canonical anchor.
#     - Read paper_prep/synthesis/CROSSWALK.md sections 1-3 to find which
#       claims (C1-C8) your topic supports.
#     - Read end-to-end-report/report/12_literature.md (Andrea's literature
#       confirmation table) — your seed references probably appear there.
#     - Run `wg log <your-task-id> "Step 1 done — substrate read"`.
#
#   STEP 2 — search (~10 min):
#     - Use WebSearch to find 10-30 relevant papers for THIS TOPIC's scope
#       (see THIS-TOPIC block below). Search PubMed, Google Scholar,
#       biorxiv, Nature/Cell/Science archives. For each candidate paper,
#       capture: author, year, title, journal, DOI/URL, 1-sentence
#       relevance to your topic.
#     - You may also use WebFetch to read a paper's abstract or full text
#       if a search hit looks central.
#     - Run `wg log <your-task-id> "Step 2 done — found N papers"` where N
#       is your candidate count.
#
#   STEP 3 — write the .md file (~20 min):
#     - File: paper_prep/lit_review/topic_NN_<slug>.md (NN = your topic
#       number; slug = your topic's hyphenated short name)
#     - Required structure (5 sections, ~300 words each = ~1500 words
#       total minimum):
#         ## Era overview (~300 words)
#           When did this topic emerge as a research area? What questions
#           drove early work?
#         ## Key papers in chronological order (~300 words)
#           Walk through 5-10 milestone references with 2-3 sentences each
#           explaining what each paper established.
#         ## Findings most relevant to claim Cn of the abstract (~300 words)
#           Which abstract claim(s) does this topic anchor? What specific
#           papers provide the strongest support? What is contested?
#         ## How this topic intersects adjacent topics (~300 words)
#           Brief: where does this topic touch the other topics in this
#           fanout? Surface 2-3 cross-references.
#         ## Open questions and recent developments (~300 words)
#           What's still unsettled? What 2020-2026 papers have shifted
#           thinking?
#     - You may go LONGER per section if you have material; the floor is
#       ~1500 words total.
#     - Cite references inline using \cite{key} or [Author Year] style;
#       the .bib file (next step) will provide the lookup.
#     - Run `wg log <your-task-id> "Step 3 done — wrote N words"` where N
#       is your `wc -w` count.
#
#   STEP 4 — write the .bib file (~5 min):
#     - File: paper_prep/lit_review/topic_NN_<slug>.bib
#     - One BibTeX entry per reference cited in your .md. Use your topic's
#       slug as a key prefix to avoid collisions: e.g. for topic 05
#       acrocentric, keys like @article{guarracino2023acrocentric,...}.
#     - REQUIRED FIELDS per entry: author, title, year, journal/booktitle,
#       and either doi or url.
#     - Minimum 10 entries.
#     - DO NOT duplicate entries already in paper_prep/synthesis/REFERENCES.bib —
#       run `grep -E "^@" paper_prep/synthesis/REFERENCES.bib` to see the
#       existing keys before you start writing.
#     - Run `wg log <your-task-id> "Step 4 done — wrote N entries"` where
#       N is your entry count.
#
#   STEP 5 — verify on disk (~1 min):
#     - Run these commands and confirm each:
#         ls -la paper_prep/lit_review/topic_*.md         # your .md exists
#         ls -la paper_prep/lit_review/topic_*.bib        # your .bib exists
#         wc -w paper_prep/lit_review/topic_*.md          # >= 1500
#         grep -c "^@" paper_prep/lit_review/topic_*.bib  # >= 10
#     - If ANY of these checks fails, go back to step 3 or 4. DO NOT
#       PROCEED to step 6 until all four checks pass.
#
#   STEP 6 — commit + push (~1 min):
#     - git add paper_prep/lit_review/topic_NN_*.md paper_prep/lit_review/topic_NN_*.bib
#     - git commit -m "docs: lit review topic NN — <slug>"
#     - The harness handles push.
#     - Run `wg log <your-task-id> "Step 6 done — committed <hash>"`.
#
#   STEP 7 — record artifacts and call wg done:
#     - wg artifact <your-task-id> paper_prep/lit_review/topic_NN_*.md
#     - wg artifact <your-task-id> paper_prep/lit_review/topic_NN_*.bib
#     - wg done <your-task-id>
#
# DO NOT call `wg done` before Step 6 has committed both files. The
# harness will not stop you, but the evaluator WILL flag it (the prior
# round's failed agents got 0.02-0.17). Verify with Step 5 first.
#
# IF YOU ARE STUCK, do NOT call `wg done` to escape — call
# `wg log <your-task-id> "stuck on <step>: <specific issue>"` and fail
# explicitly with `wg fail <your-task-id> "<reason>"` so a human can
# triage.
#
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THIS TOPIC (05 — slug: acrocentric_rdna_robertsonian): Acrocentric short arms (chr13/14/15/21/22 p-arms). They share rDNA arrays + satellite repeats; they undergo Robertsonian translocation (~1/1000 newborns). Floutsakou et al. on rDNA-distal duplicons; Henderson 1972 NORs; Robertson 1916. Guarracino 2023 acrocentric pseudohomology paper (the predecessor in the same arc as this manuscript) and de Lima/Guarracino 2025 Robertsonian. Why acrocentrics are the canonical pseudohomology system.
TIME RANGE: 1916-present.
SEED REFERENCES: Guarracino 2023 acrocentric; de Lima/Guarracino 2025 Robertsonian; Floutsakou 2013; Henderson 1972 NORs; Robertson 1916. Find ~15-25 more. Anchor claim(s) per CROSSWALK: C5 (acrocentric clade), C8 (concerted evolution at rDNA).


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# RE-DISPATCH NOTE (claude:sonnet, 2026-05-06)
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#
# This task has been redispatched from codex:gpt-5.5 (which had ~14-50%
# engagement on these tasks — see ~/.claude/projects/-moosefs-erikg-phrs/memory/
# feedback_codex_gpt55_lazy_execution.md for the full incident report).
#
# When you start, you may see:
#   - paper_prep/lit_review/topic_03_*.md and .bib (committed, ~14kB each) —
#     QUALITY BENCHMARK. Format / depth / structure to match or exceed.
#   - paper_prep/lit_review/topic_11_*.md and .bib (committed, ~14kB each) —
#     same — also a benchmark.
#   - SYNTHESIS.md, CHRONOLOGY.md, GAPS.md from a partial earlier synthesis run
#     (built from incomplete substrate; will be regenerated by the synth task).
#   - prior wg log entries showing codex agents bailing in 30-60s — that is
#     the failure mode you must NOT repeat.
#
# You are claude:sonnet. The task is a literature review with web search +
# 1500-3000 words of prose + 10-30 BibTeX entries. Take the time to do the
# work properly. The mandatory step-ordered preamble above this note still
# applies (if the original preamble is present). If your topic does not have
# the strict-step preamble (topic-03 and topic-11-2 retained their original
# prompts), follow the same shape as those benchmark files.
#
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Depends on

• done update-abstract-rename

Required by

• done lit-review-synthesis

Log

• 2026-05-06T01:46:49.620642448+00:00 Task paused
• 2026-05-06T01:46:56.306752098+00:00 Task published
• 2026-05-06T01:52:12.827275989+00:00 Spawned by coordinator --executor codex --model gpt-5.5
• 2026-05-06T01:52:48.520902128+00:00 Task pending eval (agent reported done; awaiting `.evaluate-*` to score)
• 2026-05-06T01:54:39.007854013+00:00 PendingEval → Done (evaluator passed; downstream unblocks)
• 2026-05-06T02:20:02.145039070+00:00 reset via `wg reset lit-review-topic-01,lit-review-topic-02,lit-review-topic-04-2,lit-review-topic-05,lit-review-topic-06,lit-review-topic-07,lit-review-topic-08,lit-review-topic-09,lit-review-topic-10,lit-review-topic-12,lit-review-topic-13,lit-review-topic-14,lit-review-synthesis`; was Done (cleared claim from @agent-840)
• 2026-05-06T02:23:13.202957572+00:00 Spawned by coordinator --executor codex --model gpt-5.5
• 2026-05-06T02:23:58.455379165+00:00 Task marked as done
• 2026-05-06T04:05:01.742426080+00:00 reset via `wg reset lit-review-topic-01,lit-review-topic-02,lit-review-topic-04-2,lit-review-topic-05,lit-review-topic-06,lit-review-topic-07,lit-review-topic-08,lit-review-topic-09,lit-review-topic-10,lit-review-topic-12,lit-review-topic-13,lit-review-topic-14,lit-review-synthesis`; was Done (cleared claim from @agent-889)
• 2026-05-06T04:06:53.488451273+00:00 Spawned by coordinator --executor codex --model gpt-5.5
• 2026-05-06T04:07:57.396098729+00:00 Task marked as done
• 2026-05-06T13:21:09.305286676+00:00 reset via `wg reset lit-review-topic-01,lit-review-topic-02,lit-review-topic-03,lit-review-topic-04-2,lit-review-topic-05,lit-review-topic-06,lit-review-topic-07,lit-review-topic-08,lit-review-topic-09,lit-review-topic-10,lit-review-topic-11-2,lit-review-topic-12,lit-review-topic-13,lit-review-topic-14,lit-review-synthesis`; was Done (cleared claim from @agent-910)
• 2026-05-06T13:23:15.310786689+00:00 Spawned by coordinator --executor claude --model sonnet
• 2026-05-06T13:24:09.661617987+00:00 Step 1 done — substrate read: abstract anchors C5 (acrocentric clade) and C8 (concerted evolution/ongoing exchange); acrocentric p-arms form community C7 in Andrea's analysis; CROSSWALK confirms acrocentrics show 100% allele-paralog reversal (fully interchangeable) and rDNA-adjacent homogenization; Floutsakou 2013 duplicon work and Henderson 1972 NORs are key seeds
• 2026-05-06T13:25:57.779476530+00:00 Step 2 done — found ~20 papers: Robertson 1916, Henderson 1972, Guichaoua 1983, Therman 1989, Worton 1988, Mefford/Trask 2002, Linardopoulou 2005, Floutsakou 2013, Nurk 2022, Altemose 2022, Guarracino 2023, de Lima/Guarracino 2025 (Nature), biobank-genotyping 2026, short-arm denovo 2025, origin/evolution acrocentrics 2025, Stults rDNA copy number, satellite III subfamilies, working model Robertsonian 2024
• 2026-05-06T13:31:39.434799213+00:00 Step 3 done — wrote 4638 words to topic_05_acrocentric_rdna_robertsonian.md (5 sections: claim map, era overview, key papers, C5/C8 findings, adjacent topics, open questions)
• 2026-05-06T13:31:42.239028172+00:00 Step 4 done — wrote 16 BibTeX entries to topic_05_acrocentric_rdna_robertsonian.bib (acrocentric_ prefix; covers Robertson1916, Henderson1972, Guichaoua1983, Worton1988, Therman1989, Floutsakou2013, Nurk2022, Altemose2022, ShortArms2022, Guarracino2023, deLima2025, Stults2008, Cechova2026, Porubsky2025denovo, Guarracino2025ape, workingmodel2024)
• 2026-05-06T13:31:50.315726709+00:00 Step 6 done — committed a4c05c1 — docs: lit review topic 05 — acrocentric_rdna_robertsonian
• 2026-05-06T13:32:01.811820824+00:00 Task marked as done