From fb364cd285a11dbff3d8b96887b65a23021876e4 Mon Sep 17 00:00:00 2001 From: tukun29 Date: Thu, 21 May 2026 22:09:02 -0400 Subject: [PATCH 1/4] Created using Colab --- HIVEBreastCancerPredictor.ipynb | 1867 +++++++++++++++++++++++++++++++ 1 file changed, 1867 insertions(+) create mode 100644 HIVEBreastCancerPredictor.ipynb diff --git a/HIVEBreastCancerPredictor.ipynb b/HIVEBreastCancerPredictor.ipynb new file mode 100644 index 00000000..ae77bedb --- /dev/null +++ b/HIVEBreastCancerPredictor.ipynb @@ -0,0 +1,1867 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": { + "id": "view-in-github", + "colab_type": "text" + }, + "source": [ + "\"Open" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "oVgomI-xvEDZ" + }, + "source": [ + "These are the imports needed to do the code" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/", + "height": 547 + }, + "id": "sOqXE1j0tfM0", + "outputId": "df25ff6d-0117-4ae0-d939-9eebf60c1516" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "Collecting GEOparse\n", + " Downloading GEOparse-2.0.4-py3-none-any.whl.metadata (6.5 kB)\n", + "Requirement already satisfied: numpy>=1.7 in /usr/local/lib/python3.12/dist-packages (from GEOparse) (2.0.2)\n", + "Requirement already satisfied: pandas>=0.17 in /usr/local/lib/python3.12/dist-packages (from GEOparse) (2.2.2)\n", + "Requirement already satisfied: requests>=2.21.0 in /usr/local/lib/python3.12/dist-packages (from GEOparse) (2.32.4)\n", + "Requirement already satisfied: tqdm>=4.31.1 in /usr/local/lib/python3.12/dist-packages (from GEOparse) (4.67.3)\n", + "Requirement already satisfied: python-dateutil>=2.8.2 in /usr/local/lib/python3.12/dist-packages (from pandas>=0.17->GEOparse) (2.9.0.post0)\n", + "Requirement already satisfied: pytz>=2020.1 in /usr/local/lib/python3.12/dist-packages (from pandas>=0.17->GEOparse) (2025.2)\n", + "Requirement already satisfied: tzdata>=2022.7 in /usr/local/lib/python3.12/dist-packages (from pandas>=0.17->GEOparse) (2026.1)\n", + "Requirement already satisfied: charset_normalizer<4,>=2 in /usr/local/lib/python3.12/dist-packages (from requests>=2.21.0->GEOparse) (3.4.7)\n", + "Requirement already satisfied: idna<4,>=2.5 in /usr/local/lib/python3.12/dist-packages (from requests>=2.21.0->GEOparse) (3.13)\n", + "Requirement already satisfied: urllib3<3,>=1.21.1 in /usr/local/lib/python3.12/dist-packages (from requests>=2.21.0->GEOparse) (2.5.0)\n", + "Requirement already satisfied: certifi>=2017.4.17 in /usr/local/lib/python3.12/dist-packages (from requests>=2.21.0->GEOparse) (2026.4.22)\n", + "Requirement already satisfied: six>=1.5 in /usr/local/lib/python3.12/dist-packages (from python-dateutil>=2.8.2->pandas>=0.17->GEOparse) (1.17.0)\n", + "Downloading GEOparse-2.0.4-py3-none-any.whl (29 kB)\n", + "Installing collected packages: GEOparse\n", + "Successfully installed GEOparse-2.0.4\n" + ] + }, + { + "output_type": "display_data", + "data": { + "text/plain": [ + "" + ], + "text/html": [ + "\n", + " \n", + " \n", + " Upload widget is only available when the cell has been executed in the\n", + " current browser session. Please rerun this cell to enable.\n", + " \n", + " " + ] + }, + "metadata": {} + }, + { + "output_type": "stream", + "name": "stdout", + "text": [ + "Saving GSE25055_family.soft.gz to GSE25055_family.soft.gz\n" + ] + }, + { + "output_type": "error", + "ename": "NameError", + "evalue": "name 'sklearn' is not defined", + "traceback": [ + "\u001b[0;31m---------------------------------------------------------------------------\u001b[0m", + "\u001b[0;31mNameError\u001b[0m Traceback (most recent call last)", + "\u001b[0;32m/tmp/ipykernel_19112/1601073121.py\u001b[0m in \u001b[0;36m\u001b[0;34m()\u001b[0m\n\u001b[1;32m 14\u001b[0m \u001b[0;32mfrom\u001b[0m \u001b[0mgoogle\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mcolab\u001b[0m \u001b[0;32mimport\u001b[0m \u001b[0mfiles\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 15\u001b[0m \u001b[0muploaded\u001b[0m \u001b[0;34m=\u001b[0m \u001b[0mfiles\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mupload\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m---> 16\u001b[0;31m \u001b[0mprint\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0msklearn\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mversion\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m", + "\u001b[0;31mNameError\u001b[0m: name 'sklearn' is not defined" + ] + } + ], + "source": [ + "### Imports / Setup\n", + "\n", + "import numpy as np\n", + "import pandas as pd\n", + "\n", + "!pip install GEOparse\n", + "import GEOparse\n", + "\n", + "from sklearn.model_selection import train_test_split\n", + "from sklearn.preprocessing import StandardScaler\n", + "from sklearn.linear_model import LogisticRegression\n", + "from sklearn.metrics import accuracy_score, precision_score, recall_score, f1_score, roc_auc_score\n", + "\n", + "from google.colab import files\n", + "uploaded = files.upload()\n", + "print(sklearn.version)\n" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "8G57eOASvBxc" + }, + "source": [ + "Now that the soft file has been uploaded, it gets saved under pmid_soft as the variable" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "collapsed": true, + "id": "_CGN8qVuu_5b", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "580754f8-9c97-46bb-c22a-bbf05ce8487f" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stderr", + "text": [ + "15-Apr-2026 14:20:36 INFO GEOparse - Parsing GSE25055_family.soft.gz: \n", + "INFO:GEOparse:Parsing GSE25055_family.soft.gz: \n", + "15-Apr-2026 14:20:36 DEBUG GEOparse - DATABASE: GeoMiame\n", + "DEBUG:GEOparse:DATABASE: GeoMiame\n", + "15-Apr-2026 14:20:36 DEBUG GEOparse - SERIES: GSE25055\n", + "DEBUG:GEOparse:SERIES: GSE25055\n", + "15-Apr-2026 14:20:36 DEBUG GEOparse - PLATFORM: GPL96\n", + "DEBUG:GEOparse:PLATFORM: GPL96\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615096\n", + "DEBUG:GEOparse:SAMPLE: GSM615096\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615097\n", + "DEBUG:GEOparse:SAMPLE: GSM615097\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615098\n", + "DEBUG:GEOparse:SAMPLE: GSM615098\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615099\n", + "DEBUG:GEOparse:SAMPLE: GSM615099\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615100\n", + "DEBUG:GEOparse:SAMPLE: GSM615100\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615101\n", + "DEBUG:GEOparse:SAMPLE: GSM615101\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615102\n", + "DEBUG:GEOparse:SAMPLE: GSM615102\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615103\n", + "DEBUG:GEOparse:SAMPLE: GSM615103\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615104\n", + "DEBUG:GEOparse:SAMPLE: GSM615104\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615105\n", + "DEBUG:GEOparse:SAMPLE: GSM615105\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615106\n", + "DEBUG:GEOparse:SAMPLE: GSM615106\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615107\n", + "DEBUG:GEOparse:SAMPLE: GSM615107\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615108\n", + "DEBUG:GEOparse:SAMPLE: GSM615108\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615109\n", + "DEBUG:GEOparse:SAMPLE: GSM615109\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615110\n", + "DEBUG:GEOparse:SAMPLE: GSM615110\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615111\n", + "DEBUG:GEOparse:SAMPLE: GSM615111\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615112\n", + "DEBUG:GEOparse:SAMPLE: GSM615112\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615113\n", + "DEBUG:GEOparse:SAMPLE: GSM615113\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615114\n", + "DEBUG:GEOparse:SAMPLE: GSM615114\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615115\n", + "DEBUG:GEOparse:SAMPLE: GSM615115\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615116\n", + "DEBUG:GEOparse:SAMPLE: GSM615116\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615117\n", + "DEBUG:GEOparse:SAMPLE: GSM615117\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615118\n", + "DEBUG:GEOparse:SAMPLE: GSM615118\n", + "15-Apr-2026 14:20:37 DEBUG GEOparse - SAMPLE: GSM615119\n", + "DEBUG:GEOparse:SAMPLE: GSM615119\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615120\n", + "DEBUG:GEOparse:SAMPLE: GSM615120\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615121\n", + "DEBUG:GEOparse:SAMPLE: GSM615121\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615122\n", + "DEBUG:GEOparse:SAMPLE: GSM615122\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615123\n", + "DEBUG:GEOparse:SAMPLE: GSM615123\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615124\n", + "DEBUG:GEOparse:SAMPLE: GSM615124\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615125\n", + "DEBUG:GEOparse:SAMPLE: GSM615125\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615126\n", + "DEBUG:GEOparse:SAMPLE: GSM615126\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615127\n", + "DEBUG:GEOparse:SAMPLE: GSM615127\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615128\n", + "DEBUG:GEOparse:SAMPLE: GSM615128\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615129\n", + "DEBUG:GEOparse:SAMPLE: GSM615129\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615130\n", + "DEBUG:GEOparse:SAMPLE: GSM615130\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615131\n", + "DEBUG:GEOparse:SAMPLE: GSM615131\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615132\n", + "DEBUG:GEOparse:SAMPLE: GSM615132\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615133\n", + "DEBUG:GEOparse:SAMPLE: GSM615133\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615134\n", + "DEBUG:GEOparse:SAMPLE: GSM615134\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615135\n", + "DEBUG:GEOparse:SAMPLE: GSM615135\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615136\n", + "DEBUG:GEOparse:SAMPLE: GSM615136\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615137\n", + "DEBUG:GEOparse:SAMPLE: GSM615137\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615138\n", + "DEBUG:GEOparse:SAMPLE: GSM615138\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615139\n", + "DEBUG:GEOparse:SAMPLE: GSM615139\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615140\n", + "DEBUG:GEOparse:SAMPLE: GSM615140\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615141\n", + "DEBUG:GEOparse:SAMPLE: GSM615141\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615142\n", + "DEBUG:GEOparse:SAMPLE: GSM615142\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615143\n", + "DEBUG:GEOparse:SAMPLE: GSM615143\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615144\n", + "DEBUG:GEOparse:SAMPLE: GSM615144\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615145\n", + "DEBUG:GEOparse:SAMPLE: GSM615145\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615146\n", + "DEBUG:GEOparse:SAMPLE: GSM615146\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615147\n", + "DEBUG:GEOparse:SAMPLE: GSM615147\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615148\n", + "DEBUG:GEOparse:SAMPLE: GSM615148\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615149\n", + "DEBUG:GEOparse:SAMPLE: GSM615149\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615150\n", + "DEBUG:GEOparse:SAMPLE: GSM615150\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615151\n", + "DEBUG:GEOparse:SAMPLE: GSM615151\n", + "15-Apr-2026 14:20:38 DEBUG GEOparse - SAMPLE: GSM615152\n", + "DEBUG:GEOparse:SAMPLE: GSM615152\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615153\n", + "DEBUG:GEOparse:SAMPLE: GSM615153\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615154\n", + "DEBUG:GEOparse:SAMPLE: GSM615154\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615155\n", + "DEBUG:GEOparse:SAMPLE: GSM615155\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615156\n", + "DEBUG:GEOparse:SAMPLE: GSM615156\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615157\n", + "DEBUG:GEOparse:SAMPLE: GSM615157\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615158\n", + "DEBUG:GEOparse:SAMPLE: GSM615158\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615159\n", + "DEBUG:GEOparse:SAMPLE: GSM615159\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615160\n", + "DEBUG:GEOparse:SAMPLE: GSM615160\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615161\n", + "DEBUG:GEOparse:SAMPLE: GSM615161\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615162\n", + "DEBUG:GEOparse:SAMPLE: GSM615162\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615163\n", + "DEBUG:GEOparse:SAMPLE: GSM615163\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615164\n", + "DEBUG:GEOparse:SAMPLE: GSM615164\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615165\n", + "DEBUG:GEOparse:SAMPLE: GSM615165\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615166\n", + "DEBUG:GEOparse:SAMPLE: GSM615166\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615167\n", + "DEBUG:GEOparse:SAMPLE: GSM615167\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615168\n", + "DEBUG:GEOparse:SAMPLE: GSM615168\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615169\n", + "DEBUG:GEOparse:SAMPLE: GSM615169\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615170\n", + "DEBUG:GEOparse:SAMPLE: GSM615170\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615171\n", + "DEBUG:GEOparse:SAMPLE: GSM615171\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615172\n", + "DEBUG:GEOparse:SAMPLE: GSM615172\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615173\n", + "DEBUG:GEOparse:SAMPLE: GSM615173\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615174\n", + "DEBUG:GEOparse:SAMPLE: GSM615174\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615175\n", + "DEBUG:GEOparse:SAMPLE: GSM615175\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615176\n", + "DEBUG:GEOparse:SAMPLE: GSM615176\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615177\n", + "DEBUG:GEOparse:SAMPLE: GSM615177\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615178\n", + "DEBUG:GEOparse:SAMPLE: GSM615178\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615179\n", + "DEBUG:GEOparse:SAMPLE: GSM615179\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615180\n", + "DEBUG:GEOparse:SAMPLE: GSM615180\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615181\n", + "DEBUG:GEOparse:SAMPLE: GSM615181\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615182\n", + "DEBUG:GEOparse:SAMPLE: GSM615182\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615183\n", + "DEBUG:GEOparse:SAMPLE: GSM615183\n", + "15-Apr-2026 14:20:39 DEBUG GEOparse - SAMPLE: GSM615184\n", + "DEBUG:GEOparse:SAMPLE: GSM615184\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615185\n", + "DEBUG:GEOparse:SAMPLE: GSM615185\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615186\n", + "DEBUG:GEOparse:SAMPLE: GSM615186\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615187\n", + "DEBUG:GEOparse:SAMPLE: GSM615187\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615188\n", + "DEBUG:GEOparse:SAMPLE: GSM615188\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615189\n", + "DEBUG:GEOparse:SAMPLE: GSM615189\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615190\n", + "DEBUG:GEOparse:SAMPLE: GSM615190\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615191\n", + "DEBUG:GEOparse:SAMPLE: GSM615191\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615192\n", + "DEBUG:GEOparse:SAMPLE: GSM615192\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615193\n", + "DEBUG:GEOparse:SAMPLE: GSM615193\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615194\n", + "DEBUG:GEOparse:SAMPLE: GSM615194\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615195\n", + "DEBUG:GEOparse:SAMPLE: GSM615195\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615196\n", + "DEBUG:GEOparse:SAMPLE: GSM615196\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615197\n", + "DEBUG:GEOparse:SAMPLE: GSM615197\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615198\n", + "DEBUG:GEOparse:SAMPLE: GSM615198\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615199\n", + "DEBUG:GEOparse:SAMPLE: GSM615199\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615200\n", + "DEBUG:GEOparse:SAMPLE: GSM615200\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615201\n", + "DEBUG:GEOparse:SAMPLE: GSM615201\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615202\n", + "DEBUG:GEOparse:SAMPLE: GSM615202\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615203\n", + "DEBUG:GEOparse:SAMPLE: GSM615203\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615204\n", + "DEBUG:GEOparse:SAMPLE: GSM615204\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615205\n", + "DEBUG:GEOparse:SAMPLE: GSM615205\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615206\n", + "DEBUG:GEOparse:SAMPLE: GSM615206\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615207\n", + "DEBUG:GEOparse:SAMPLE: GSM615207\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615208\n", + "DEBUG:GEOparse:SAMPLE: GSM615208\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615209\n", + "DEBUG:GEOparse:SAMPLE: GSM615209\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615210\n", + "DEBUG:GEOparse:SAMPLE: GSM615210\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615211\n", + "DEBUG:GEOparse:SAMPLE: GSM615211\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615212\n", + "DEBUG:GEOparse:SAMPLE: GSM615212\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615213\n", + "DEBUG:GEOparse:SAMPLE: GSM615213\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615214\n", + "DEBUG:GEOparse:SAMPLE: GSM615214\n", + "15-Apr-2026 14:20:40 DEBUG GEOparse - SAMPLE: GSM615215\n", + "DEBUG:GEOparse:SAMPLE: GSM615215\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615216\n", + "DEBUG:GEOparse:SAMPLE: GSM615216\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615217\n", + "DEBUG:GEOparse:SAMPLE: GSM615217\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615218\n", + "DEBUG:GEOparse:SAMPLE: GSM615218\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615219\n", + "DEBUG:GEOparse:SAMPLE: GSM615219\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615220\n", + "DEBUG:GEOparse:SAMPLE: GSM615220\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615221\n", + "DEBUG:GEOparse:SAMPLE: GSM615221\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615222\n", + "DEBUG:GEOparse:SAMPLE: GSM615222\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615223\n", + "DEBUG:GEOparse:SAMPLE: GSM615223\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615224\n", + "DEBUG:GEOparse:SAMPLE: GSM615224\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615225\n", + "DEBUG:GEOparse:SAMPLE: GSM615225\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615226\n", + "DEBUG:GEOparse:SAMPLE: GSM615226\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615227\n", + "DEBUG:GEOparse:SAMPLE: GSM615227\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615228\n", + "DEBUG:GEOparse:SAMPLE: GSM615228\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615229\n", + "DEBUG:GEOparse:SAMPLE: GSM615229\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615230\n", + "DEBUG:GEOparse:SAMPLE: GSM615230\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615231\n", + "DEBUG:GEOparse:SAMPLE: GSM615231\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615232\n", + "DEBUG:GEOparse:SAMPLE: GSM615232\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615233\n", + "DEBUG:GEOparse:SAMPLE: GSM615233\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615234\n", + "DEBUG:GEOparse:SAMPLE: GSM615234\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615235\n", + "DEBUG:GEOparse:SAMPLE: GSM615235\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615236\n", + "DEBUG:GEOparse:SAMPLE: GSM615236\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615237\n", + "DEBUG:GEOparse:SAMPLE: GSM615237\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615238\n", + "DEBUG:GEOparse:SAMPLE: GSM615238\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615239\n", + "DEBUG:GEOparse:SAMPLE: GSM615239\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615240\n", + "DEBUG:GEOparse:SAMPLE: GSM615240\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615241\n", + "DEBUG:GEOparse:SAMPLE: GSM615241\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615242\n", + "DEBUG:GEOparse:SAMPLE: GSM615242\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615243\n", + "DEBUG:GEOparse:SAMPLE: GSM615243\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615244\n", + "DEBUG:GEOparse:SAMPLE: GSM615244\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615245\n", + "DEBUG:GEOparse:SAMPLE: GSM615245\n", + "15-Apr-2026 14:20:41 DEBUG GEOparse - SAMPLE: GSM615246\n", + "DEBUG:GEOparse:SAMPLE: GSM615246\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615247\n", + "DEBUG:GEOparse:SAMPLE: GSM615247\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615248\n", + "DEBUG:GEOparse:SAMPLE: GSM615248\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615249\n", + "DEBUG:GEOparse:SAMPLE: GSM615249\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615250\n", + "DEBUG:GEOparse:SAMPLE: GSM615250\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615251\n", + "DEBUG:GEOparse:SAMPLE: GSM615251\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615252\n", + "DEBUG:GEOparse:SAMPLE: GSM615252\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615253\n", + "DEBUG:GEOparse:SAMPLE: GSM615253\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615254\n", + "DEBUG:GEOparse:SAMPLE: GSM615254\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615255\n", + "DEBUG:GEOparse:SAMPLE: GSM615255\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615256\n", + "DEBUG:GEOparse:SAMPLE: GSM615256\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615257\n", + "DEBUG:GEOparse:SAMPLE: GSM615257\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615258\n", + "DEBUG:GEOparse:SAMPLE: GSM615258\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615259\n", + "DEBUG:GEOparse:SAMPLE: GSM615259\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615260\n", + "DEBUG:GEOparse:SAMPLE: GSM615260\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615261\n", + "DEBUG:GEOparse:SAMPLE: GSM615261\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615262\n", + "DEBUG:GEOparse:SAMPLE: GSM615262\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615263\n", + "DEBUG:GEOparse:SAMPLE: GSM615263\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615264\n", + "DEBUG:GEOparse:SAMPLE: GSM615264\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615265\n", + "DEBUG:GEOparse:SAMPLE: GSM615265\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615266\n", + "DEBUG:GEOparse:SAMPLE: GSM615266\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615267\n", + "DEBUG:GEOparse:SAMPLE: GSM615267\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615268\n", + "DEBUG:GEOparse:SAMPLE: GSM615268\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615269\n", + "DEBUG:GEOparse:SAMPLE: GSM615269\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615270\n", + "DEBUG:GEOparse:SAMPLE: GSM615270\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615271\n", + "DEBUG:GEOparse:SAMPLE: GSM615271\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615272\n", + "DEBUG:GEOparse:SAMPLE: GSM615272\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615273\n", + "DEBUG:GEOparse:SAMPLE: GSM615273\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615274\n", + "DEBUG:GEOparse:SAMPLE: GSM615274\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615275\n", + "DEBUG:GEOparse:SAMPLE: GSM615275\n", + "15-Apr-2026 14:20:42 DEBUG GEOparse - SAMPLE: GSM615276\n", + "DEBUG:GEOparse:SAMPLE: GSM615276\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615277\n", + "DEBUG:GEOparse:SAMPLE: GSM615277\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615278\n", + "DEBUG:GEOparse:SAMPLE: GSM615278\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615279\n", + "DEBUG:GEOparse:SAMPLE: GSM615279\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615280\n", + "DEBUG:GEOparse:SAMPLE: GSM615280\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615281\n", + "DEBUG:GEOparse:SAMPLE: GSM615281\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615282\n", + "DEBUG:GEOparse:SAMPLE: GSM615282\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615283\n", + "DEBUG:GEOparse:SAMPLE: GSM615283\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615284\n", + "DEBUG:GEOparse:SAMPLE: GSM615284\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615285\n", + "DEBUG:GEOparse:SAMPLE: GSM615285\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615286\n", + "DEBUG:GEOparse:SAMPLE: GSM615286\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615287\n", + "DEBUG:GEOparse:SAMPLE: GSM615287\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615288\n", + "DEBUG:GEOparse:SAMPLE: GSM615288\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615289\n", + "DEBUG:GEOparse:SAMPLE: GSM615289\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615290\n", + "DEBUG:GEOparse:SAMPLE: GSM615290\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615291\n", + "DEBUG:GEOparse:SAMPLE: GSM615291\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615292\n", + "DEBUG:GEOparse:SAMPLE: GSM615292\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615293\n", + "DEBUG:GEOparse:SAMPLE: GSM615293\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615294\n", + "DEBUG:GEOparse:SAMPLE: GSM615294\n", + "15-Apr-2026 14:20:43 DEBUG GEOparse - SAMPLE: GSM615295\n", + "DEBUG:GEOparse:SAMPLE: GSM615295\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615296\n", + "DEBUG:GEOparse:SAMPLE: GSM615296\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615297\n", + "DEBUG:GEOparse:SAMPLE: GSM615297\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615298\n", + "DEBUG:GEOparse:SAMPLE: GSM615298\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615299\n", + "DEBUG:GEOparse:SAMPLE: GSM615299\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615300\n", + "DEBUG:GEOparse:SAMPLE: GSM615300\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615301\n", + "DEBUG:GEOparse:SAMPLE: GSM615301\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615302\n", + "DEBUG:GEOparse:SAMPLE: GSM615302\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615303\n", + "DEBUG:GEOparse:SAMPLE: GSM615303\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615304\n", + "DEBUG:GEOparse:SAMPLE: GSM615304\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615305\n", + "DEBUG:GEOparse:SAMPLE: GSM615305\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615306\n", + "DEBUG:GEOparse:SAMPLE: GSM615306\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615307\n", + "DEBUG:GEOparse:SAMPLE: GSM615307\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615308\n", + "DEBUG:GEOparse:SAMPLE: GSM615308\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615309\n", + "DEBUG:GEOparse:SAMPLE: GSM615309\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615310\n", + "DEBUG:GEOparse:SAMPLE: GSM615310\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615311\n", + "DEBUG:GEOparse:SAMPLE: GSM615311\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615312\n", + "DEBUG:GEOparse:SAMPLE: GSM615312\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615313\n", + "DEBUG:GEOparse:SAMPLE: GSM615313\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615314\n", + "DEBUG:GEOparse:SAMPLE: GSM615314\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615315\n", + "DEBUG:GEOparse:SAMPLE: GSM615315\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615316\n", + "DEBUG:GEOparse:SAMPLE: GSM615316\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615317\n", + "DEBUG:GEOparse:SAMPLE: GSM615317\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615318\n", + "DEBUG:GEOparse:SAMPLE: GSM615318\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615319\n", + "DEBUG:GEOparse:SAMPLE: GSM615319\n", + "15-Apr-2026 14:20:44 DEBUG GEOparse - SAMPLE: GSM615320\n", + "DEBUG:GEOparse:SAMPLE: GSM615320\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615321\n", + "DEBUG:GEOparse:SAMPLE: GSM615321\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615322\n", + "DEBUG:GEOparse:SAMPLE: GSM615322\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615323\n", + "DEBUG:GEOparse:SAMPLE: GSM615323\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615324\n", + "DEBUG:GEOparse:SAMPLE: GSM615324\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615325\n", + "DEBUG:GEOparse:SAMPLE: GSM615325\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615326\n", + "DEBUG:GEOparse:SAMPLE: GSM615326\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615327\n", + "DEBUG:GEOparse:SAMPLE: GSM615327\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615328\n", + "DEBUG:GEOparse:SAMPLE: GSM615328\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615329\n", + "DEBUG:GEOparse:SAMPLE: GSM615329\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615330\n", + "DEBUG:GEOparse:SAMPLE: GSM615330\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615331\n", + "DEBUG:GEOparse:SAMPLE: GSM615331\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615332\n", + "DEBUG:GEOparse:SAMPLE: GSM615332\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615333\n", + "DEBUG:GEOparse:SAMPLE: GSM615333\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615334\n", + "DEBUG:GEOparse:SAMPLE: GSM615334\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615335\n", + "DEBUG:GEOparse:SAMPLE: GSM615335\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615336\n", + "DEBUG:GEOparse:SAMPLE: GSM615336\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615337\n", + "DEBUG:GEOparse:SAMPLE: GSM615337\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615338\n", + "DEBUG:GEOparse:SAMPLE: GSM615338\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615339\n", + "DEBUG:GEOparse:SAMPLE: GSM615339\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615340\n", + "DEBUG:GEOparse:SAMPLE: GSM615340\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615341\n", + "DEBUG:GEOparse:SAMPLE: GSM615341\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615342\n", + "DEBUG:GEOparse:SAMPLE: GSM615342\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615343\n", + "DEBUG:GEOparse:SAMPLE: GSM615343\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615344\n", + "DEBUG:GEOparse:SAMPLE: GSM615344\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615345\n", + "DEBUG:GEOparse:SAMPLE: GSM615345\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615346\n", + "DEBUG:GEOparse:SAMPLE: GSM615346\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615347\n", + "DEBUG:GEOparse:SAMPLE: GSM615347\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615348\n", + "DEBUG:GEOparse:SAMPLE: GSM615348\n", + "15-Apr-2026 14:20:45 DEBUG GEOparse - SAMPLE: GSM615349\n", + "DEBUG:GEOparse:SAMPLE: GSM615349\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615350\n", + "DEBUG:GEOparse:SAMPLE: GSM615350\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615351\n", + "DEBUG:GEOparse:SAMPLE: GSM615351\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615352\n", + "DEBUG:GEOparse:SAMPLE: GSM615352\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615353\n", + "DEBUG:GEOparse:SAMPLE: GSM615353\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615354\n", + "DEBUG:GEOparse:SAMPLE: GSM615354\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615355\n", + "DEBUG:GEOparse:SAMPLE: GSM615355\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615356\n", + "DEBUG:GEOparse:SAMPLE: GSM615356\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615357\n", + "DEBUG:GEOparse:SAMPLE: GSM615357\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615358\n", + "DEBUG:GEOparse:SAMPLE: GSM615358\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615359\n", + "DEBUG:GEOparse:SAMPLE: GSM615359\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615360\n", + "DEBUG:GEOparse:SAMPLE: GSM615360\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615361\n", + "DEBUG:GEOparse:SAMPLE: GSM615361\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615362\n", + "DEBUG:GEOparse:SAMPLE: GSM615362\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615363\n", + "DEBUG:GEOparse:SAMPLE: GSM615363\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615364\n", + "DEBUG:GEOparse:SAMPLE: GSM615364\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615365\n", + "DEBUG:GEOparse:SAMPLE: GSM615365\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615366\n", + "DEBUG:GEOparse:SAMPLE: GSM615366\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615367\n", + "DEBUG:GEOparse:SAMPLE: GSM615367\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615368\n", + "DEBUG:GEOparse:SAMPLE: GSM615368\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615369\n", + "DEBUG:GEOparse:SAMPLE: GSM615369\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615370\n", + "DEBUG:GEOparse:SAMPLE: GSM615370\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615371\n", + "DEBUG:GEOparse:SAMPLE: GSM615371\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615372\n", + "DEBUG:GEOparse:SAMPLE: GSM615372\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615373\n", + "DEBUG:GEOparse:SAMPLE: GSM615373\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615374\n", + "DEBUG:GEOparse:SAMPLE: GSM615374\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615375\n", + "DEBUG:GEOparse:SAMPLE: GSM615375\n", + "15-Apr-2026 14:20:46 DEBUG GEOparse - SAMPLE: GSM615376\n", + "DEBUG:GEOparse:SAMPLE: GSM615376\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615377\n", + "DEBUG:GEOparse:SAMPLE: GSM615377\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615378\n", + "DEBUG:GEOparse:SAMPLE: GSM615378\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615379\n", + "DEBUG:GEOparse:SAMPLE: GSM615379\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615380\n", + "DEBUG:GEOparse:SAMPLE: GSM615380\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615381\n", + "DEBUG:GEOparse:SAMPLE: GSM615381\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615382\n", + "DEBUG:GEOparse:SAMPLE: GSM615382\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615383\n", + "DEBUG:GEOparse:SAMPLE: GSM615383\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615384\n", + "DEBUG:GEOparse:SAMPLE: GSM615384\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615385\n", + "DEBUG:GEOparse:SAMPLE: GSM615385\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615386\n", + "DEBUG:GEOparse:SAMPLE: GSM615386\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615387\n", + "DEBUG:GEOparse:SAMPLE: GSM615387\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615388\n", + "DEBUG:GEOparse:SAMPLE: GSM615388\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615389\n", + "DEBUG:GEOparse:SAMPLE: GSM615389\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615390\n", + "DEBUG:GEOparse:SAMPLE: GSM615390\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615391\n", + "DEBUG:GEOparse:SAMPLE: GSM615391\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615392\n", + "DEBUG:GEOparse:SAMPLE: GSM615392\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615393\n", + "DEBUG:GEOparse:SAMPLE: GSM615393\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615394\n", + "DEBUG:GEOparse:SAMPLE: GSM615394\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615395\n", + "DEBUG:GEOparse:SAMPLE: GSM615395\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615396\n", + "DEBUG:GEOparse:SAMPLE: GSM615396\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615397\n", + "DEBUG:GEOparse:SAMPLE: GSM615397\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615398\n", + "DEBUG:GEOparse:SAMPLE: GSM615398\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615399\n", + "DEBUG:GEOparse:SAMPLE: GSM615399\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615400\n", + "DEBUG:GEOparse:SAMPLE: GSM615400\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615401\n", + "DEBUG:GEOparse:SAMPLE: GSM615401\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615402\n", + "DEBUG:GEOparse:SAMPLE: GSM615402\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615403\n", + "DEBUG:GEOparse:SAMPLE: GSM615403\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615404\n", + "DEBUG:GEOparse:SAMPLE: GSM615404\n", + "15-Apr-2026 14:20:47 DEBUG GEOparse - SAMPLE: GSM615405\n", + "DEBUG:GEOparse:SAMPLE: GSM615405\n" + ] + }, + { + "output_type": "stream", + "name": "stdout", + "text": [ + "loaded\n", + "\n", + "310\n", + "dict_keys(['GPL96'])\n" + ] + } + ], + "source": [ + "pmid_soft = GEOparse.get_GEO(filepath=\"GSE25055_family.soft.gz\")\n", + "print(\"loaded\")\n", + "\n", + "#additioal checks\n", + "print(type(pmid_soft))\n", + "print(len(pmid_soft.gsms))\n", + "print(pmid_soft.gpls.keys())" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "EyddC3b-3j60" + }, + "source": [ + "Extracting the Meta-data: \"data about data\" gives us the type of data points sitting in the SOFT file\n", + "The code prints the columns that exist in the metadata some of the data is useful some of it is not. Seeing a list helps us identify that\n", + "The SHAPE of the metadata tells us its dimensions. In this case: 310, 25 indicates there are 310 rows and 35 colums. 35 characterisics for 310 total samples. We should also see the DRFS binary property show up becyase that property actuall gives us the resulting 1 or 0 that tells the code whether the paitient actually made it through treatment or relapsed." + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "JTRSN-la3jUi", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "eb0c2253-59da-4fab-c2e3-15fad39503e8" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "Metadata shape: (310, 61)\n", + "\n", + "Metadata columns:\n", + "['sample_id', 'title', 'geo_accession', 'status', 'submission_date', 'last_update_date', 'type', 'channel_count', 'source_name_ch1', 'organism_ch1', 'taxid_ch1', 'characteristics_ch1', 'source', 'age_years', 'er_status_ihc', 'pr_status_ihc', 'her2_status', 'er_status_ihc_esr1_for_indeterminate', 'clinical_t_stage', 'clinical_nodal_status', 'clinical_ajcc_stage', 'grade', 'pathologic_response_pcr_rd', 'pathologic_response_rcb_class', 'drfs_1_event_0_censored', 'drfs_even_time_years', 'esr1_status', 'erbb2_status', 'set_class', 'chemosensitivity_prediction', 'ggi_class', 'pam50_class', 'dlda30_prediction', 'rcb_0_i_prediction', 'tissue', 'treatment_protocol_ch1', 'molecule_ch1', 'extract_protocol_ch1', 'label_ch1', 'label_protocol_ch1', 'hyb_protocol', 'scan_protocol', 'data_processing', 'probe_intensities_were_quantified_with_microarray_suite_version_5.0_(mas_5.0)_using_affymetrix_default_analysis_settings.__cel_files_were_normalized_using_global_scaling_with_a_trimmed_mean_target_intensity_of_each_array_arbitrarily_set_to_600_using_the_mas5_algorithm_from_the_simpleaffy_package_(http', 'platform_id', 'contact_name', 'contact_email', 'contact_phone', 'contact_institute', 'contact_address', 'contact_city', 'contact_state', 'contact_zip/postal_code', 'contact_country', 'contact_web_link', 'supplementary_file', 'ftp', 'relation', 'reanalyzed_by', 'series_id', 'data_row_count']\n" + ] + } + ], + "source": [ + "# EXTRACT METADATA\n", + "metadata_list = []\n", + "\n", + "for sample_name, sample in pmid_soft.gsms.items():\n", + " row = {\"sample_id\": sample_name}\n", + "\n", + " for key, value in sample.metadata.items():\n", + " # Keep full metadata as readable strings\n", + " if isinstance(value, list):\n", + " row[key] = \" | \".join(map(str, value))\n", + "\n", + " # ALSO split things like \"drfs_1_event_0_censored: 1\"\n", + " for item in value:\n", + " if \":\" in item:\n", + " k, v = item.split(\":\", 1)\n", + " clean_key = k.strip().lower().replace(\" \", \"_\")\n", + " row[clean_key] = v.strip()\n", + " else:\n", + " row[key] = value\n", + "\n", + " metadata_list.append(row)\n", + "\n", + "metadata_df = pd.DataFrame(metadata_list)\n", + "\n", + "print(\"Metadata shape:\", metadata_df.shape)\n", + "print(\"\\nMetadata columns:\")\n", + "print(metadata_df.columns.tolist())" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "9_RuqUfj5D1q" + }, + "source": [ + "Now we are going to identify the numeric (useful) data from the SOFT.file. Instead of looking at the metadate we go to the \"table\" layer/component of the file which the code will search through based on the VALUE parameter to pull the numeric data. The VALUE parmeter is the standardized parameter for GEO\n", + "files." + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "RXg8Pzn25Ffe", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "5a3a9658-36f4-4dff-ee10-d76af25bd725" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "Extracting expression matrix...\n", + "Original shape (genes x samples): (22283, 310)\n", + "Transposed shape (samples x probes): (310, 22283)\n", + "ID_REF 1007_s_at 1053_at 117_at 121_at 1255_g_at 1294_at \\\n", + "name \n", + "GSM615096 12.359267 8.021741 8.294244 10.840949 7.874062 8.341292 \n", + "GSM615097 12.613243 7.842947 5.474758 11.715159 7.347955 9.419005 \n", + "GSM615098 11.551397 8.776267 8.197121 10.715077 6.523880 9.297479 \n", + "GSM615099 11.828700 9.523877 7.907263 10.750475 6.478643 8.698516 \n", + "GSM615100 11.983987 6.836237 8.625010 10.827725 7.336754 9.599059 \n", + "... ... ... ... ... ... ... \n", + "GSM615401 12.135865 8.633192 9.783710 9.830411 7.357560 8.217632 \n", + "GSM615402 11.982492 9.451202 8.210670 9.354246 7.178217 9.082518 \n", + "GSM615403 11.721887 8.955527 8.980073 10.727569 8.242348 9.691482 \n", + "GSM615404 11.066133 9.489278 7.945081 9.552854 7.353828 10.022531 \n", + "GSM615405 10.703124 8.813052 9.025983 9.693816 5.531112 9.214619 \n", + "\n", + "ID_REF 1316_at 1320_at 1405_i_at 1431_at ... AFFX-r2-Ec-bioD-3_at \\\n", + "name ... \n", + "GSM615096 8.256335 6.485966 6.495728 7.063123 ... 15.640044 \n", + "GSM615097 7.983681 7.330512 7.332244 7.033859 ... 16.719929 \n", + "GSM615098 7.820261 6.423794 10.066291 6.661108 ... 14.850736 \n", + "GSM615099 7.526617 7.276040 10.399704 6.642930 ... 14.414238 \n", + "GSM615100 8.312127 6.832232 7.090151 7.081613 ... 15.066009 \n", + "... ... ... ... ... ... ... \n", + "GSM615401 8.313859 5.304950 8.262117 7.488756 ... 14.103782 \n", + "GSM615402 7.144019 6.389862 8.596580 6.407605 ... 14.308051 \n", + "GSM615403 7.817483 5.722656 11.104730 8.290744 ... 15.862593 \n", + "GSM615404 7.460670 4.903692 9.808574 7.383959 ... 14.668847 \n", + "GSM615405 7.460981 4.446914 9.367801 6.786354 ... 14.701467 \n", + "\n", + "ID_REF AFFX-r2-Ec-bioD-5_at AFFX-r2-Hs18SrRNA-3_s_at \\\n", + "name \n", + "GSM615096 15.441187 11.190421 \n", + "GSM615097 16.383235 10.750292 \n", + "GSM615098 14.637426 11.580917 \n", + "GSM615099 14.218011 10.275100 \n", + "GSM615100 14.816849 10.840278 \n", + "... ... ... \n", + "GSM615401 13.826508 11.742811 \n", + "GSM615402 13.858847 10.993654 \n", + "GSM615403 15.411223 9.693377 \n", + "GSM615404 14.260912 15.270607 \n", + "GSM615405 14.235730 11.370290 \n", + "\n", + "ID_REF AFFX-r2-Hs18SrRNA-5_at AFFX-r2-Hs18SrRNA-M_x_at \\\n", + "name \n", + "GSM615096 11.955084 12.139089 \n", + "GSM615097 11.610319 12.080350 \n", + "GSM615098 13.075420 12.347660 \n", + "GSM615099 11.467574 10.788742 \n", + "GSM615100 12.989398 11.851791 \n", + "... ... ... \n", + "GSM615401 14.297823 10.871473 \n", + "GSM615402 12.314814 9.767024 \n", + "GSM615403 12.189645 8.891483 \n", + "GSM615404 15.506028 14.867092 \n", + "GSM615405 12.392458 10.071009 \n", + "\n", + "ID_REF AFFX-r2-Hs28SrRNA-3_at AFFX-r2-Hs28SrRNA-5_at \\\n", + "name \n", + "GSM615096 14.074549 9.047564 \n", + "GSM615097 13.681936 8.765575 \n", + "GSM615098 13.676062 9.450242 \n", + "GSM615099 13.395810 8.466331 \n", + "GSM615100 13.943810 8.721290 \n", + "... ... ... \n", + "GSM615401 11.313766 9.321655 \n", + "GSM615402 10.714735 8.832938 \n", + "GSM615403 10.494081 6.370288 \n", + "GSM615404 12.315510 9.259754 \n", + "GSM615405 11.244264 9.335462 \n", + "\n", + "ID_REF AFFX-r2-Hs28SrRNA-M_at AFFX-r2-P1-cre-3_at AFFX-r2-P1-cre-5_at \n", + "name \n", + "GSM615096 11.274337 17.356685 17.004035 \n", + "GSM615097 11.287301 18.404677 18.143576 \n", + "GSM615098 11.308490 16.304500 15.988321 \n", + "GSM615099 10.208604 16.190139 15.807992 \n", + "GSM615100 11.110014 16.767231 16.485521 \n", + "... ... ... ... \n", + "GSM615401 9.334666 15.501419 15.074929 \n", + "GSM615402 9.378723 15.488476 15.190513 \n", + "GSM615403 9.124964 16.847545 16.685688 \n", + "GSM615404 10.416107 15.839781 15.501607 \n", + "GSM615405 8.978068 15.661208 15.337064 \n", + "\n", + "[310 rows x 22283 columns]\n" + ] + } + ], + "source": [ + "print(\"\\nExtracting expression matrix...\")\n", + "expression_df = pmid_soft.pivot_samples(\"VALUE\")\n", + "\n", + "print(\"Original shape (genes x samples):\", expression_df.shape)\n", + "\n", + "# GEOparse usually gives rows = probes, columns = samples\n", + "# We want rows = samples, columns = probes\n", + "expression_df = expression_df.T\n", + "\n", + "print(\"Transposed shape (samples x probes):\", expression_df.shape)\n", + "print(expression_df)" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "N9H9ij73_Hw5" + }, + "source": [ + "Mapping the data back and renaimig things to be a bit more clearer and biologically meaningful to the average person (me)." + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "eRJhrC5b_Ira", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "591036cf-9029-4efa-83fa-48da8076004b" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "Annotation columns:\n", + "['ID', 'GB_ACC', 'SPOT_ID', 'Species Scientific Name', 'Annotation Date', 'Sequence Type', 'Sequence Source', 'Target Description', 'Representative Public ID', 'Gene Title', 'Gene Symbol', 'ENTREZ_GENE_ID', 'RefSeq Transcript ID', 'Gene Ontology Biological Process', 'Gene Ontology Cellular Component', 'Gene Ontology Molecular Function']\n" + ] + } + ], + "source": [ + "# MAP PROBE IDs TO GENE SYMBOLS\n", + "\n", + "gpl = pmid_soft.gpls[\"GPL96\"]\n", + "annotation = gpl.table\n", + "\n", + "print(\"Annotation columns:\")\n", + "print(annotation.columns.tolist())\n", + "\n", + "# Some rows may have missing gene symbols\n", + "annotation = annotation[[\"ID\", \"Gene Symbol\"]].copy()\n", + "annotation[\"Gene Symbol\"] = annotation[\"Gene Symbol\"].fillna(\"\").astype(str).str.strip()\n", + "\n", + "id_to_gene = dict(zip(annotation[\"ID\"], annotation[\"Gene Symbol\"]))\n", + "\n", + "# Replace probe IDs with gene symbols when possible\n", + "new_columns = []\n", + "for col in expression_df.columns:\n", + " gene = id_to_gene.get(col, \"\")\n", + " if gene == \"\" or gene == \"---\":\n", + " new_columns.append(col) # keep probe ID if no gene symbol\n", + " else:\n", + " new_columns.append(gene)\n", + "\n", + "expression_df.columns = new_columns" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "3oEvs7sHOFCd" + }, + "source": [ + "Now that the drfs event is visible we have to clean and integrate it to the matrix\n" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "collapsed": true, + "id": "nJJ2hWI2OFfW", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "a5f7f38a-5454-4209-ebee-a47dd464b0f1" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "Original shape (genes x samples): (22283, 310)\n", + "Transposed shape (samples x probes): (310, 22283)\n", + "\n", + "Expression sample IDs:\n", + "Index(['GSM615096', 'GSM615097', 'GSM615098', 'GSM615099', 'GSM615100',\n", + " 'GSM615101', 'GSM615102', 'GSM615103', 'GSM615104', 'GSM615105'],\n", + " dtype='object', name='name')\n" + ] + } + ], + "source": [ + "# REBUILD EXPRESSION MATRIX\n", + "expression_df = pmid_soft.pivot_samples(\"VALUE\")\n", + "\n", + "print(\"Original shape (genes x samples):\", expression_df.shape)\n", + "\n", + "expression_df = expression_df.T\n", + "\n", + "print(\"Transposed shape (samples x probes):\", expression_df.shape)\n", + "print(\"\\nExpression sample IDs:\")\n", + "print(expression_df.index[:10])" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "GrEYHa_DRi9U" + }, + "outputs": [], + "source": [ + "# CLEAN EXPRESSION INDEX\n", + "expression_df.index = expression_df.index.astype(str).str.strip()" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "FiQMzDdSRq7T", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "44227b2d-a8f0-417e-c2d7-389f293eace9" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "Columns containing 'drfs':\n", + "['drfs_1_event_0_censored', 'drfs_even_time_years']\n" + ] + } + ], + "source": [ + "# FIND DRFS COLUMNS\n", + "drfs_cols = [col for col in metadata_df.columns if \"drfs\" in col.lower()]\n", + "print(\"\\nColumns containing 'drfs':\")\n", + "print(drfs_cols)" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "collapsed": true, + "id": "0gx4hw89Rx4G", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "920e9ea2-2a1c-4f42-8b0e-ab2918bfebb7" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "DRFS value counts:\n", + "drfs_1_event_0_censored\n", + "0 244\n", + "1 66\n", + "Name: count, dtype: int64\n" + ] + } + ], + "source": [ + "# CLEAN DRFS LABEL\n", + "metadata_df[\"drfs_1_event_0_censored\"] = pd.to_numeric(\n", + " metadata_df[\"drfs_1_event_0_censored\"],\n", + " errors=\"coerce\"\n", + ")\n", + "\n", + "print(\"\\nDRFS value counts:\")\n", + "print(metadata_df[\"drfs_1_event_0_censored\"].value_counts(dropna=False))" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "rJkhQxdAR4eL", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "941e26ef-369c-4349-abe2-015861cf2364" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "Column 'geo_accession' has 310 matching sample IDs.\n", + "Example matches: ['GSM615264', 'GSM615392', 'GSM615391', 'GSM615194', 'GSM615389', 'GSM615198', 'GSM615327', 'GSM615377', 'GSM615163', 'GSM615385']\n", + "\n", + "Chosen matching column: geo_accession\n" + ] + } + ], + "source": [ + "# SEARCH FOR THE CORRECT MATCHING ID COLUMN\n", + "matching_col = None\n", + "\n", + "for col in metadata_df.columns:\n", + " values = metadata_df[col].astype(str).str.strip()\n", + " overlap = len(set(values) & set(expression_df.index))\n", + "\n", + " if overlap > 0:\n", + " print(f\"\\nColumn '{col}' has {overlap} matching sample IDs.\")\n", + "\n", + " # print a few example matches\n", + " matches = list(set(values) & set(expression_df.index))[:10]\n", + " print(\"Example matches:\", matches)\n", + "\n", + " if matching_col is None:\n", + " matching_col = col\n", + "\n", + "print(\"\\nChosen matching column:\", matching_col)\n", + "\n", + "\n", + "# STOP IF NO MATCH FOUND\n", + "if matching_col is None:\n", + " raise ValueError(\"No metadata column matches expression_df sample IDs. Need to inspect metadata_df manually.\")" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "tqXgve51SGUp", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "16a7b314-e466-4d37-ee0f-7ea096b1d188" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "Labels shape: (310, 1)\n", + " drfs_1_event_0_censored\n", + "match_id \n", + "GSM615096 1\n", + "GSM615097 0\n", + "GSM615098 0\n", + "GSM615099 0\n", + "GSM615100 1\n", + "\n", + "Label sample IDs:\n", + "Index(['GSM615096', 'GSM615097', 'GSM615098', 'GSM615099', 'GSM615100',\n", + " 'GSM615101', 'GSM615102', 'GSM615103', 'GSM615104', 'GSM615105'],\n", + " dtype='object', name='match_id')\n" + ] + } + ], + "source": [ + "# BUILD LABEL TABLE USING THE MATCHING COLUMN\n", + "labels = metadata_df[[matching_col, \"drfs_1_event_0_censored\"]].dropna()\n", + "labels = labels.rename(columns={matching_col: \"match_id\"})\n", + "labels[\"match_id\"] = labels[\"match_id\"].astype(str).str.strip()\n", + "labels = labels.set_index(\"match_id\")\n", + "\n", + "print(\"\\nLabels shape:\", labels.shape)\n", + "print(labels.head())\n", + "\n", + "print(\"\\nLabel sample IDs:\")\n", + "print(labels.index[:10])" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "Y8Ukz3l4SJmz", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "75f789e8-e32c-4514-b707-e6495aad69ad" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "Labels shape: (310, 1)\n", + " drfs_1_event_0_censored\n", + "match_id \n", + "GSM615096 1\n", + "GSM615097 0\n", + "GSM615098 0\n", + "GSM615099 0\n", + "GSM615100 1\n", + "\n", + "Label sample IDs:\n", + "Index(['GSM615096', 'GSM615097', 'GSM615098', 'GSM615099', 'GSM615100',\n", + " 'GSM615101', 'GSM615102', 'GSM615103', 'GSM615104', 'GSM615105'],\n", + " dtype='object', name='match_id')\n" + ] + } + ], + "source": [ + "# BUILD LABEL TABLE USING THE MATCHING COLUMN\n", + "labels = metadata_df[[matching_col, \"drfs_1_event_0_censored\"]].dropna()\n", + "labels = labels.rename(columns={matching_col: \"match_id\"})\n", + "labels[\"match_id\"] = labels[\"match_id\"].astype(str).str.strip()\n", + "labels = labels.set_index(\"match_id\")\n", + "\n", + "print(\"\\nLabels shape:\", labels.shape)\n", + "print(labels.head())\n", + "\n", + "print(\"\\nLabel sample IDs:\")\n", + "print(labels.index[:10])" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "ABzC2V3HSWba", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "108ad650-60ee-427a-e35b-f0e984d96c41" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "Number of matching samples: 310\n", + "First few matching sample IDs:\n", + "Index(['GSM615096', 'GSM615097', 'GSM615098', 'GSM615099', 'GSM615100',\n", + " 'GSM615101', 'GSM615102', 'GSM615103', 'GSM615104', 'GSM615105'],\n", + " dtype='object')\n" + ] + } + ], + "source": [ + "# FIND OVERLAPPING SAMPLES\n", + "common_samples = expression_df.index.intersection(labels.index)\n", + "\n", + "print(\"\\nNumber of matching samples:\", len(common_samples))\n", + "print(\"First few matching sample IDs:\")\n", + "print(common_samples[:10])\n", + "\n", + "\n", + "# KEEP ONLY MATCHED SAMPLES\n", + "expression_df_matched = expression_df.loc[common_samples]\n", + "labels_matched = labels.loc[common_samples]" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "BPqA-qXdSaDR", + "colab": { + "base_uri": "https://localhost:8080/" + }, + "outputId": "2021cf48-d02c-43c3-a1ca-397f407df645" + }, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + "\n", + "Final dataset shape: (310, 22284)\n", + " 1007_s_at 1053_at 117_at 121_at 1255_g_at 1294_at \\\n", + "GSM615096 12.359267 8.021741 8.294244 10.840949 7.874062 8.341292 \n", + "GSM615097 12.613243 7.842947 5.474758 11.715159 7.347955 9.419005 \n", + "GSM615098 11.551397 8.776267 8.197121 10.715077 6.523880 9.297479 \n", + "GSM615099 11.828700 9.523877 7.907263 10.750475 6.478643 8.698516 \n", + "GSM615100 11.983987 6.836237 8.625010 10.827725 7.336754 9.599059 \n", + "\n", + " 1316_at 1320_at 1405_i_at 1431_at ... AFFX-r2-Ec-bioD-5_at \\\n", + "GSM615096 8.256335 6.485966 6.495728 7.063123 ... 15.441187 \n", + "GSM615097 7.983681 7.330512 7.332244 7.033859 ... 16.383235 \n", + "GSM615098 7.820261 6.423794 10.066291 6.661108 ... 14.637426 \n", + "GSM615099 7.526617 7.276040 10.399704 6.642930 ... 14.218011 \n", + "GSM615100 8.312127 6.832232 7.090151 7.081613 ... 14.816849 \n", + "\n", + " AFFX-r2-Hs18SrRNA-3_s_at AFFX-r2-Hs18SrRNA-5_at \\\n", + "GSM615096 11.190421 11.955084 \n", + "GSM615097 10.750292 11.610319 \n", + "GSM615098 11.580917 13.075420 \n", + "GSM615099 10.275100 11.467574 \n", + "GSM615100 10.840278 12.989398 \n", + "\n", + " AFFX-r2-Hs18SrRNA-M_x_at AFFX-r2-Hs28SrRNA-3_at \\\n", + "GSM615096 12.139089 14.074549 \n", + "GSM615097 12.080350 13.681936 \n", + "GSM615098 12.347660 13.676062 \n", + "GSM615099 10.788742 13.395810 \n", + "GSM615100 11.851791 13.943810 \n", + "\n", + " AFFX-r2-Hs28SrRNA-5_at AFFX-r2-Hs28SrRNA-M_at \\\n", + "GSM615096 9.047564 11.274337 \n", + "GSM615097 8.765575 11.287301 \n", + "GSM615098 9.450242 11.308490 \n", + "GSM615099 8.466331 10.208604 \n", + "GSM615100 8.721290 11.110014 \n", + "\n", + " AFFX-r2-P1-cre-3_at AFFX-r2-P1-cre-5_at drfs_1_event_0_censored \n", + "GSM615096 17.356685 17.004035 1 \n", + "GSM615097 18.404677 18.143576 0 \n", + "GSM615098 16.304500 15.988321 0 \n", + "GSM615099 16.190139 15.807992 0 \n", + "GSM615100 16.767231 16.485521 1 \n", + "\n", + "[5 rows x 22284 columns]\n" + ] + } + ], + "source": [ + "# MERGE EXPRESSION + LABELS\n", + "final_df = expression_df_matched.merge(\n", + " labels_matched,\n", + " left_index=True,\n", + " right_index=True\n", + ")\n", + "\n", + "print(\"\\nFinal dataset shape:\", final_df.shape)\n", + "print(final_df.head())" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "1U1jZ8obTuGu" + }, + "source": [ + "Now the dataset if FINALLYYY properly created and can be used to train a model." + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "0eT4W1IXUlLi", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 211 + }, + "outputId": "606277ce-d41f-4e0c-aeda-bf9e77dbb2bf" + }, + "outputs": [ + { + "output_type": "error", + "ename": "NameError", + "evalue": "name 'final_df' is not defined", + "traceback": [ + "\u001b[0;31m---------------------------------------------------------------------------\u001b[0m", + "\u001b[0;31mNameError\u001b[0m Traceback (most recent call last)", + "\u001b[0;32m/tmp/ipykernel_35429/4143188667.py\u001b[0m in \u001b[0;36m\u001b[0;34m()\u001b[0m\n\u001b[1;32m 1\u001b[0m \u001b[0;31m# SPLIT FEATURES + TARGET\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0;32m----> 2\u001b[0;31m \u001b[0mX\u001b[0m \u001b[0;34m=\u001b[0m \u001b[0mfinal_df\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mdrop\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0mcolumns\u001b[0m\u001b[0;34m=\u001b[0m\u001b[0;34m[\u001b[0m\u001b[0;34m\"drfs_1_event_0_censored\"\u001b[0m\u001b[0;34m]\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[0m\u001b[1;32m 3\u001b[0m \u001b[0my\u001b[0m \u001b[0;34m=\u001b[0m \u001b[0mfinal_df\u001b[0m\u001b[0;34m[\u001b[0m\u001b[0;34m\"drfs_1_event_0_censored\"\u001b[0m\u001b[0;34m]\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 4\u001b[0m \u001b[0;34m\u001b[0m\u001b[0m\n\u001b[1;32m 5\u001b[0m \u001b[0mprint\u001b[0m\u001b[0;34m(\u001b[0m\u001b[0;34m\"X shape:\"\u001b[0m\u001b[0;34m,\u001b[0m \u001b[0mX\u001b[0m\u001b[0;34m.\u001b[0m\u001b[0mshape\u001b[0m\u001b[0;34m)\u001b[0m\u001b[0;34m\u001b[0m\u001b[0;34m\u001b[0m\u001b[0m\n", + "\u001b[0;31mNameError\u001b[0m: name 'final_df' is not defined" + ] + } + ], + "source": [ + "# SPLIT FEATURES + TARGET\n", + "X = final_df.drop(columns=[\"drfs_1_event_0_censored\"])\n", + "y = final_df[\"drfs_1_event_0_censored\"]\n", + "\n", + "print(\"X shape:\", X.shape)\n", + "print(\"y shape:\", y.shape)\n", + "\n", + "print(\"\\nClass distribution:\")\n", + "print(y.value_counts())\n", + "\n", + "\n", + "# FEATURE REDUCTION\n", + "gene_variance = X.var(axis=0)\n", + "top_genes = gene_variance.sort_values(ascending=False).head(1000).index\n", + "X = X[top_genes]\n", + "\n", + "print(\"\\nReduced feature count:\", X.shape[1])\n", + "\n", + "\n", + "# NORMALIZATION\n", + "scaler = StandardScaler()\n", + "X_scaled = scaler.fit_transform(X)\n", + "\n", + "\n", + "# TRAIN / TEST SPLIT\n", + "X_train, X_test, y_train, y_test = train_test_split(\n", + " X_scaled, y,\n", + " test_size=0.2,\n", + " stratify=y,\n", + " random_state=42\n", + ")\n", + "\n", + "print(\"\\nTraining set shape:\", X_train.shape)\n", + "print(\"Test set shape:\", X_test.shape)\n", + "\n", + "\n", + "# MODEL\n", + "model = LogisticRegression(\n", + " C=100,\n", + " penalty=11,\n", + " solver='liblinear',\n", + " max_iter=500,\n", + " class_weight='balanced'\n", + ")\n", + "\n", + "model.fit(X_train, y_train)\n", + "\n", + "\n", + "# EVALUATION\n", + "y_pred = model.predict(X_test)\n", + "y_prob = model.predict_proba(X_test)[:, 1]\n", + "\n", + "metrics = {\n", + " \"accuracy\": accuracy_score(y_test, y_pred),\n", + " \"precision\": precision_score(y_test, y_pred),\n", + " \"recall\": recall_score(y_test, y_pred),\n", + " \"f1\": f1_score(y_test, y_pred),\n", + " \"auc\": roc_auc_score(y_test, y_prob)\n", + "}\n", + "\n", + "print(\"\\nModel Performance:\")\n", + "for k, v in metrics.items():\n", + " print(f\"{k}: {v:.4f}\")\n", + "\n", + "\n", + "# FEATURE IMPORTANCE\n", + "feature_importance = pd.Series(\n", + " model.coef_[0],\n", + " index=X.columns\n", + ").sort_values(key=abs, ascending=False)\n", + "\n", + "print(\"\\nTop Features:\")\n", + "print(feature_importance.head(10))" + ] + }, + { + "cell_type": "markdown", + "metadata": { + "id": "d44K4a_6WA5e" + }, + "source": [ + "Now we visualize the results so that the model can be improved" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": { + "id": "sOt92J-GWHHS", + "colab": { + "base_uri": "https://localhost:8080/", + "height": 1000 + }, + "outputId": "5b104002-0384-4521-aa86-3d1f7bb802d2" + }, + "outputs": [ + { + "output_type": "display_data", + "data": { + "text/plain": [ + "
" + ], + "image/png": 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\n" 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\n" 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\n" + }, + "metadata": {} + } + ], + "source": [ + "import matplotlib.pyplot as plt\n", + "from sklearn.metrics import (\n", + " roc_curve,\n", + " precision_recall_curve,\n", + " confusion_matrix,\n", + " ConfusionMatrixDisplay\n", + ")\n", + "\n", + "# ROC CURVE\n", + "fpr, tpr, _ = roc_curve(y_test, y_prob)\n", + "\n", + "plt.figure(figsize=(6, 5))\n", + "plt.plot(fpr, tpr, label=f\"AUC = {roc_auc_score(y_test, y_prob):.3f}\")\n", + "plt.plot([0, 1], [0, 1], linestyle='--')\n", + "plt.xlabel(\"False Positive Rate\")\n", + "plt.ylabel(\"True Positive Rate\")\n", + "plt.title(\"ROC Curve - Logistic Regression\")\n", + "plt.legend()\n", + "plt.grid(True)\n", + "plt.show()\n", + "\n", + "# PRECISION-RECALL CURVE\n", + "precision_vals, recall_vals, _ = precision_recall_curve(y_test, y_prob)\n", + "\n", + "plt.figure(figsize=(6, 5))\n", + "plt.plot(recall_vals, precision_vals)\n", + "plt.xlabel(\"Recall\")\n", + "plt.ylabel(\"Precision\")\n", + "plt.title(\"Precision-Recall Curve - Logistic Regression\")\n", + "plt.grid(True)\n", + "plt.show()\n", + "\n", + "\n", + "# CONFUSION MATRIX\n", + "cm = confusion_matrix(y_test, y_pred)\n", + "\n", + "disp = ConfusionMatrixDisplay(confusion_matrix=cm)\n", + "disp.plot()\n", + "plt.title(\"Confusion Matrix - Logistic Regression\")\n", + "plt.show()" + ] + }, + { + "cell_type": "code", + "source": [ + "# GETTING THE BIOLOGICAL GENES\n", + "\n", + "top_features = feature_importance.head(10)\n", + "\n", + "def clean_gene_symbol(gene):\n", + " if pd.isna(gene) or gene == \"---\":\n", + " return \"Unknown\"\n", + " return gene.split(\"///\")[0].strip()\n", + "\n", + "mapped_genes = [\n", + " clean_gene_symbol(id_to_gene.get(probe, \"Unknown\"))\n", + " for probe in top_features.index\n", + "]\n", + "\n", + "df_top = pd.DataFrame({\n", + " \"Probe\": top_features.index,\n", + " \"Gene\": mapped_genes,\n", + " \"Coefficient\": top_features.values\n", + "})\n", + "\n", + "print(df_top)" + ], + "metadata": { + "colab": { + "base_uri": "https://localhost:8080/" + }, + "id": "DPrhsGr7ffhp", + "outputId": "71f3060b-2f0d-46ec-e825-ebc2602126d4" + }, + "execution_count": null, + "outputs": [ + { + "output_type": "stream", + "name": "stdout", + "text": [ + " Probe Gene Coefficient\n", + "0 204540_at EEF1A2 1.518858\n", + "1 211737_x_at PTN -1.278893\n", + "2 218885_s_at GALNT12 -1.155978\n", + "3 220084_at C14orf105 -1.058550\n", + "4 207147_at DLX2 1.039317\n", + "5 202989_at RGS1 -1.022044\n", + "6 215112_x_at MCF2L2 1.000583\n", + "7 211078_s_at STK3 0.987127\n", + "8 217595_at GSPT1 0.922447\n", + "9 205916_at S100A7 0.906573\n" + ] + } + ] + } + ], + "metadata": { + "colab": { + "provenance": [], + "authorship_tag": "ABX9TyOdYPqxwiEHebctk4HhrcaP", + "include_colab_link": true + }, + "kernelspec": { + "display_name": "Python 3", + "name": "python3" + }, + "language_info": { + "name": "python" + } + }, + "nbformat": 4, + "nbformat_minor": 0 +} \ No newline at end of file From 85055b1f143ea7a8c0705884f563f6756e61d054 Mon Sep 17 00:00:00 2001 From: tukun29 Date: Thu, 21 May 2026 22:11:32 -0400 Subject: [PATCH 2/4] Add files via upload --- bco_draft (1).json | 240 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 240 insertions(+) create mode 100644 bco_draft (1).json diff --git a/bco_draft (1).json b/bco_draft (1).json new file mode 100644 index 00000000..840ff20e --- /dev/null +++ b/bco_draft (1).json @@ -0,0 +1,240 @@ +{ + "object_id": "https://example.org/bco/breast-cancer-drfs-gse25055", + "spec_version": "https://w3id.org/ieee/ieee-2791-schema/2791object.json", + "etag": "draft-1", + "provenance_domain": { + "name": "Breast Cancer DRFS Prediction using GEO GSE25055", + "version": "1.0", + "review_status": "unreviewed", + "derived_from": [], + "created": "2026-04-27T00:00:00Z", + "modified": "2026-04-27T00:00:00Z", + "contributors": [ + { + "name": "SAMPURNA CHAKRAVORTY", + "affiliation": "University of Maryland - College Park", + "email": "sampurnachakravorty@gmail.com", + "contribution": [ + "createdBy" + ], + "orcid": "" + } + ], + "license": "https://spdx.org/licenses/CC-BY-4.0.html" + }, + "usability_domain": [ + "This workflow processes gene expression data from GEO dataset GSE25055 to predict distant relapse-free survival (DRFS) outcomes in breast cancer patients.", + "The pipeline extracts metadata and expression values from SOFT files, maps probe IDs to gene symbols, and constructs a labeled dataset.", + "A logistic regression model is trained on normalized gene expression data using variance-based feature selection.", + "This workflow is intended for exploratory bioinformatics analysis and predictive modeling of cancer outcomes." + ], + "description_domain": { + "keywords": [ + "breast cancer", + "gene expression", + "GEO", + "machine learning", + "logistic regression", + "DRFS" + ], + "pipeline_steps": [ + { + "step_number": 1, + "name": "Upload GEO SOFT file", + "description": "Upload GSE25055 SOFT file into the environment" + }, + { + "step_number": 2, + "name": "Parse dataset", + "description": "Parse SOFT file using GEOparse" + }, + { + "step_number": 3, + "name": "Extract metadata", + "description": "Extract sample-level metadata" + }, + { + "step_number": 4, + "name": "Extract expression matrix", + "description": "Retrieve VALUE matrix from GEO dataset" + }, + { + "step_number": 5, + "name": "Transpose matrix", + "description": "Convert to samples x features format" + }, + { + "step_number": 6, + "name": "Map probes to genes", + "description": "Use GPL96 annotation to map probe IDs to gene symbols" + }, + { + "step_number": 7, + "name": "Clean DRFS labels", + "description": "Extract and clean DRFS outcome variable" + }, + { + "step_number": 8, + "name": "Match sample IDs", + "description": "Align metadata and expression data" + }, + { + "step_number": 9, + "name": "Merge dataset", + "description": "Combine features and labels" + }, + { + "step_number": 10, + "name": "Feature selection", + "description": "Select top 1000 genes by variance" + }, + { + "step_number": 11, + "name": "Normalization", + "description": "Standardize features using StandardScaler" + }, + { + "step_number": 12, + "name": "Train-test split", + "description": "Split dataset into 80/20 stratified sets" + }, + { + "step_number": 13, + "name": "Train model", + "description": "Train logistic regression classifier" + }, + { + "step_number": 14, + "name": "Evaluate model", + "description": "Compute accuracy, precision, recall, F1, ROC-AUC" + }, + { + "step_number": 15, + "name": "Feature importance", + "description": "Extract most predictive genes" + }, + { + "step_number": 16, + "name": "Visualization", + "description": "Generate ROC, PR curve, and confusion matrix" + } + ] + }, + "execution_domain": { + "script": [ + { + "uri": "https://colab.research.google.com/", + "access_time": "2026-04-27T00:00:00Z" + } + ], + "script_driver": "python", + "software_prerequisites": [ + { + "name": "Python", + "version": "3.x" + }, + { + "name": "numpy" + }, + { + "name": "pandas" + }, + { + "name": "GEOparse" + }, + { + "name": "scikit-learn" + }, + { + "name": "matplotlib" + } + ], + "external_data_endpoints": [ + { + "name": "GEO", + "url": "https://www.ncbi.nlm.nih.gov/geo/" + } + ], + "environment_variables": {} + }, + "parametric_domain": [ + { + "param": "test_size", + "value": "0.2" + }, + { + "param": "random_state", + "value": "42" + }, + { + "param": "feature_selection", + "value": "top 1000 genes by variance" + }, + { + "param": "C", + "value": "100" + }, + { + "param": "penalty", + "value": "l1" + }, + { + "param": "solver", + "value": "liblinear" + }, + { + "param": "max_iter", + "value": "500" + }, + { + "param": "class_weight", + "value": "balanced" + } + ], + "io_domain": { + "input_subdomain": [ + { + "filename": "GSE25055_family.soft.gz", + "uri": "https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE25055" + }, + { + "filename": "GPL96 annotation", + "uri": "https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GPL96" + } + ], + "output_subdomain": [ + { + "filename": "trained_model", + "mediatype": "application/octet-stream" + }, + { + "filename": "metrics", + "mediatype": "application/json" + }, + { + "filename": "roc_curve", + "mediatype": "image/png" + }, + { + "filename": "precision_recall_curve", + "mediatype": "image/png" + }, + { + "filename": "confusion_matrix", + "mediatype": "image/png" + }, + { + "filename": "top_genes", + "mediatype": "text/csv" + } + ] + }, + "error_domain": { + "empirical_error": { + "comment": "Model performance varies depending on dataset split and feature selection" + }, + "algorithmic_error": { + "comment": "Potential overfitting due to high dimensionality of gene expression data" + } + } +} \ No newline at end of file From aca52699170c7224ced86a0f058995570e1c21e9 Mon Sep 17 00:00:00 2001 From: sampurnac291 Date: Thu, 21 May 2026 23:53:55 -0400 Subject: [PATCH 3/4] Add files via upload --- 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